All India Council For Technical Education

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT V. A) PROGRAMMES (UNDERGRADUATE / POSTGRADUATE): Table 1 Sr. No.

Name of Program

Total No of seats sanctioned

Duration

Cut off marks for admission (during last 3 academic years) OUT OF 700 07-08 08-09 09-10

Fee structure

AICTE approved / accredited

3 Years

431

Admission process was going on at the time of report preparation

Rs. 1640/(Boys) Rs. 640/(Girls). Per Annum

Approved

Total No of seats sanctioned

Duration

Cut off marks/percentage/percentile for admission (during last 3 academic years) 07-08 08-09 09-10 Central Central Central admission admission admission procedure procedure procedure

Fee structure

AICTE approved / accredited Approved

UNDERGRADUATE 1. Dip. Text. 20 Tech.

Sr. No

Name of Program

438

1

B.E. (Textile Engineering)

30

4 years

2

B.E. (Textile Technology)

30

4 years

Central admission procedure



10

2 Years

€72.57

60.76

10

2 Years

---

---

Admission process was going on at the time of report preparation ---

POSTGRADUATE 1. M.E. (Textiles) Textile Engg.

2.

M.E. (Textiles) Man-made Textiles

€ Percentage.

Rs.2250/For Boys Rs. 750/For Girls. Rs.2250/For Boys Rs. 750/For Girls. Rs. 2360/(Boys) Rs. 860/(Girls). Per Annum Rs. 2360/(Boys) Rs. 860/(Girls). Per Annum

Approved

Approved

Approved

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT VI. FACULTY

Sr. No.

Name of the faculty (Beginning with surname)

Designation

Area of Specialization / Research

FACULTY APPOINTED ON PERMANENT BASIS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14.

Bhattacharya S. S. Patel P.C. Vernekar S. T. Sanghadia J. B. Vasavada D. A. Koranne M. V. Bhawalkar D. M. Vaghelia H. D. Mankodi H. R. Shaikh T. N. Kanade P.S. Pratihar P. Chaudhari S. B. Chudasama D. J.

Professor Reader Reader Reader Reader Reader Lecturer Lecturer Lecturer Lecturer Lecturer Lecturer Lecturer Lecturer

Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech.

FACULTY APPOINTED ON TEMPORARY BASIS 1. Malek U. A. 2. Mandot A. A. 3. Agrawal S.H. 4. Parikh U.N ADJUNCT FACULTY VISITING FACULTY GUEST FACULTY

Lecturer Lecturer Lecturer Lecturer

Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech. Textile Engg. / Textile Tech.

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT IX ADMISSION (UNDERGRADUATE AND POSTGRADUATE): Sr.

Name of

No of

No.

the

seats

program 1

Program 1

Categories

07-08

sanctioned 20

Dip. Text.

SC ST SEBC

Tech.

OPEN OTHERS 2

Program 2

---

01

was going on at the

06

05

time of report

14

15

preparation

---

---

30

SC ST SEBC OPEN OTHERS




Program 1

SC

ME 10

Textile

ST SEBC OPEN OTHERS SC

Engineering Program 2 ME (Textiles)

Admission process


Tech) POSTGRADUATE

2

01


(Textile

(Textiles)

02


B.E.

1

09-10

SC ST SEBC OPEN OTHERS

(Textile Engg) Program 3

(In 3 academic years) 08-09

30

B.E.

3

No of students admitted under various categories

10

Man made Textiles * NO MANAGEMENT QUOTA

ST SEBC OPEN OTHERS

---

---

Central admission

---

---

procedure

---

---

03

04

-----

-----

Central admission

---

---

procedure

---

---

---

---

---

---

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT XI. CRITERIA AND WEIGHTAGE FOR ADMISSION: Sr. No.

Name of program

Whether Minimum admission level of test or acceptanc give e marks of qualifying exam

UNDERGRADUATE 1 Program 1 Based on Xth std Dip. Text. Board Tech exam marks out of 700. 2 Program 2 NA

414 288 372 438 ---

Pass

SC ST SEBC OPEN OTHER

99.29 64.74 114.02 124.65 160.11

101.49 68.38 123.37 147.14 145.24

Pass

SC ST SEBC OPEN OTHER

95.36 114.01 124.37 134.87

105.93 90.98 122.60 142.14 172.74

55%

SC ST SEBC

-------

-------

OPEN OTHER SC

*72.57 #291 -----

*60.76 #273 -----

ST SEBC OPEN

-------

-------

OTHER

---

---

B.E. (Textile Tech) POSTGRADUATE 1 Program 1 ME (Textiles) Textile 2

Engineering Program 2 ME (Textiles) Man made Textiles

Based on Final year marks. GATE qualified preferred. 55% Based on Final year marks. GATE qualified preferred.

08-09

358 --364 431 ---

Engg) NA

07-08 SC ST SEBC OPEN OTHER

(Textile Program 3

Cut off percentage / percentile score of the candidate (in last 3 academic years)

Pass

B.E.

3

Category

* Gate score # composed of 60% HSC Board exam marks and 40% of GUJCET score

09-10

Cut off marks of Test / Qualifying exam of the candidate (in last 3 academic years) 07-0 08-0 098 9 10

Admission process was going on at the time of report preparation Admission process was going on at the time of report preparation Admission process was going on at the time of report preparation

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA


NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA


NA NA NA NA NA

NA NA NA NA NA

NA NA NA NA NA

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMETNT XIII. LIST OF APPLICANTS (POSTGRADUATE PROGRAM ONLY): FOR YEAR 2009-10 ONLY

Sr. No.

Programme

01.

ME (Textiles) Textile Engg.

Number of Applications Received From M.S.U. Students From Non M.S.U. Students SC ST SEBC OPEN OTHER SC ST SEBC OPEN OTHER Admission process was going on at the time of report preparation

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT XV. (B) INFORMATION ON INFRASTRUCTURE AND OTHER RESOURCES AVAILABLE: 1. NUMBER OF CLASSROOMS AND SIZE OF EACH (SQ. MTS.): Sr No. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16.

Type of Space

No. of rooms

Class Rooms 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516

01 01 01 01 01 01 01 01 01 01 01 01 01 01 01 01

Total

2.

Area (Sq.m) 09 X07 = 10 X 07 = 07 X07 = 07 X 07 = 07 X 07 = 6.5 X8.5 = 6.5 X 8.5 = 08 X 3.5 = 7.5 X 06= 7.5 X 06= 09 X 06= 07 X 04= 07 X 04= 6.5 X 8.5 = 6.5 X 8.5 = 10.5 X 5.5=

16

63.00 70.00 49.00 49.00 49.00 55.25 55.25 28.00 45.00 45.00 54.00 28.00 28.00 55.25 55.25 57.25 786.25

NUMBER OF LABORATORIES AND SIZE OF EACH (SQ. MTS.): Sr. No. 4 5 6 7 8 11.

Type of Space

No. of rooms

Spinning Yarn Preparation Weaving Textile Testing Man-Made Textiles Garment & Knitting

01 01 01 02 01 01

Area (Sq.m) 1050.00 625.00 625.00 625.00 48.00 60.00

1. NUMBER OF DRAWING HALLS AND SIZE OF EACH (SQ. MTS.): Sr. No. 1. 2.

Type of Space

No. of rooms

Drawing Hall Seminar Hall

01 01

Area (Sq.m) 361.00 129.50

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT

VII. PROFILE OF FACULTY: 1. Name of faculty: BHATTACHRAYA SOMESHWAR Last name First name 2. Date of Birth:

1 9 // D D

1 1 // MM

SANTIMOY Middle name

1 9 5 5 YYYY

3. Educational Qualification: Ph.D. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization:_Spinning, Testing, Man made fibres,Texturising

5. Work Experience (In Years): Teaching: 28

Research: - 19

Industry: 03

Others: --

6.Subjects taught at Undergraduate Level: Spinning., Testing, Man made fibres Postgraduate Level: Yarn Structures, Texturising

7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 18 01 10 08 09

9. Number of project carried: Particulars Sponsored Consultancy

Industry Govt. Agency Industry Govt. Agency

Ongoing -02

International Journals Conference/Seminars Completed -04 -

04 04 Ongoing -

10. Number of books published: ---11. Number of Patents: ---12. Number of Technology transfer: ---

Signature of Faculty

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT VII. PROFILE OF FACULTY: 1. Name of faculty: 2. Date of Birth:

PATEL Last name

1 3 // D D

0 4 MM

PRAVIN First name //

CHIMANBHAI Middle name

19 5 7 YYYY

3. Educational Qualification: Ph.D. (BE/ME/Ph.D.) 4. Area of Specialization: Textile Technology, Industrial Textiles, Non Woven, Modern Yarn Production


Research: - 07

Industry: 02 Others: NIL (Industry & Research)

6.Subjects taught at Undergraduate Level: Man made fibre Technology, Non Wovens & Industrial Textiles, Modern Spinning Postgraduate Level: Modern Yarn Production, Production of man made fibres

7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 11 02 17 10 07



Ongoing 01 01

International Journals Conference/Seminars Completed -Two ---

08 -08 Ongoing -




VERNEKAR Last name

1 9 // D D

0 4 // MM

SHRIKANT First name

TUKARAM Middle name

195 6 YYYY

3. Educational Qualification: M.Text. (Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Fabric Forming (Yarn Production, Weaving, Fabric Structure, Knitting)


Research: - 15

Industry: 01 (Industry & Trainee)

Others: ---

6.Subjects taught at Undergraduate Level: , Weaving, Yarn Production, Fabric Srtucture, Knitting Postgraduate Level: Weaving 7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 06 --

12+25 --



Ongoing ---

International Journals Conference/Seminars Completed 02 02 ---

01 -Ongoing -




SANGHADIA Last name

0 2 D D

// 1 0 MM

//

JAYESH First name

BABUBHAI Middle name

1 9 5 7 YYYY

3. Educational Qualification: M. E.. (BE/ME/Ph.D.) 4. Area of Specialization: Textile Engineering, Mill Planning, Spinning


Research: - 12

Industry: 1 ½

Others: ---

6.Subjects taught at Undergraduate Level: , Mill Planning, Spinning Postgraduate Level: Spinning 7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 06 --

03 02



Ongoing ---

International Journals Conference/Seminars Completed -01 ---

-01 Ongoing -

10. Number of books published: Nil 11. Number of Patents: Nil 12. Number of Technology transfer: Nil



VASAVADA Last name

2 7 // D D

0 8 // MM

DEVAL First name

ASHWINKUMAR Middle name

1 9 61 YYYY

3. Educational Qualification: M.Text. (Engg). (BE/ME/Ph.D.) 4. Area of Specialization: Textile Engineering


Research: - 14

Industry: 1

Others: ---

6.Subjects taught at Undergraduate Level:, Related to Fabric Manufacture, Planning, Engineering Aspects of Textile Structures Postgraduate Level: Spinning: Related to Design of Machines(Theory) Engineering Structures 7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 04 --

03 --



Ongoing ---

International Journals Conference/Seminars Completed -03 ---

01 -Ongoing -

10. Number of books published: -11. Number of Patents: --12. Number of Technology transfer:---



KORANNE Last name

0 1 // D D

0 2 // MM

MILIND First name

VASUDEV Middle name

1 9 61 YYYY

3. Educational Qualification: Ph.D. (BE/ME/Ph.D.) 4. Area of Specialization: Weaving, Knitting, Fabric Structure, Winding

5. Work Experience (In Years): Teaching: 27 yrs.

Research: - 08 yrs.

Industry: 1 yrs.

Others: ---

6.Subjects taught at Undergraduate Level:, Yarn Preparation, Fabric Structures, Weaving, Knitting, Industrial Textiles Postgraduate Level: Spinning: Engineering Properties of Textile Material 7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 05 --

One --

9. Number of project carried: Particulars Industry Sponsored Consultancy

Govt. Agency Industry Govt. Agency

Ongoing ---

International Journals Conference/Seminars Completed Baroda Rayon Corporation 03 +01 01(AICTE R &D) ---

--Ongoing 01



-


BHAWALKAR Last name

1 5 // DD

0 5 MM

//

DIWAKAR First name

MADHUKAR Middle name

1 95 7 YYYY

3. Educational Qualification: M.Text.(Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Yarn Manufacture (Spinning) 5. Work Experience (In Years): Teaching: 26 years.

Research: - 2 1/4 yrs.

Industry: 2 months

Others: ---

6.Subjects taught at Undergraduate Level:, Spinning & elated Subjects Postgraduate Level: Spinning: Production of Man made Fibres 7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 02 --

01 01



Ongoing ---

International Journals Conference/Seminars ONE Completed -----

--Ongoing ---




VAGHELIYA Last name

1 1 // DD

0 8 MM

//

HARSHAD First name

DAHYALAL Middle name

1 96 1 YYYY

3. Educational Qualification: M.Text.(Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Textile Tech. & Engg. 5. Work Experience (In Years): Teaching: 19

Research: - --

Industry: 4 ½

Others: ---

6.Subjects taught at Undergraduate Level:, Spinning, Man mdae, Fabric Structures etc. Postgraduate Level: --7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

---




Ongoing ---

--Ongoing --

10. Number of books published: “Vastra Vidya” Part – I, Gujarat Rajya Pathya Pstak Mandal, Gandhinagar(For S.S.C.) 11. Number of Patents: --12. Number of Technology transfer:---


MANKODI Last name

0 6 // DD

HIRENI First name

0 8 // MM

RAJNIKANT Middle name

1 96 7 YYYY

3. Educational Qualification: Ph.D.. (BE/ME/Ph.D.) 4. Area of Specialization: Textile Engineering 5. Work Experience (In Years): Teaching: 17

Research: - --

Industry: --

Others: ---

6.Subjects taught at Undergraduate Level:, Weaving, Garment Technology, Electronic Control Postgraduate Level: Spinning: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed 02 --

22 06





Ongoing ---

-13 Ongoing -02 -

NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT VII. PROFILE OF FACULTY: 1. Name of faculty:

SHAIKH Last name

2. Date of Birth:

//

12 DD

TASNIM First name

0 1 // MM

NISARAHMED Middle name

1 9 6 8 YYYY

3. Educational Qualification: M.Text.(Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Spinning, Garment Technology, Textile Testing 5. Work Experience (In Years): Teaching: 17

Research: - --

Industry: --

Others: ---

6.Subjects taught at Undergraduate Level:, Garment Technology, Spinning, Process Control at Spinning, Textile Manufacture, Textile Testing Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed --12 06 06



Ongoing ---

International Journals Conference/Seminars ONE Completed 05 ----

02 -02 Ongoing 01 --


Signature of faculty


KANADE Last name

1 3 // DD

0 7 MM

PRAGNYA First name

//

SANJIV Middle name

1 97 2 YYYY

3. Educational Qualification: M.Text.(Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: ____________________ 5. Work Experience (In Years): Teaching: 13

Research: - --

Industry: --

Others: ---

6.Subjects taught at Undergraduate Level:, Weaving, Testing, Preparatory Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

05 01




International Journals Conference/Seminars ONE Completed -04 ---

Ongoing ---

--Ongoing -01 -


PRATIHAR Last name

1 9 DD

//

0 2 MM

//

PRABIR First name

Middle name

1 96 7 YYYY

3. Educational Qualification: M.E. (Text.(Engg.), PGDIM(IGNOU) (BE/ME/Ph.D.) 4. Area of Specialization: Weaving 5. Work Experience (In Years): Teaching: 08

Research: - 06

Industry: 5 ½

Others: ---

6.Subjects taught at Undergraduate Level:, Weaving –I, Weaving –II, Weaving –III, Weaving Tech. –I, Weaving Tech – II, Weaving, Weaving Tech – III, Fabric Srtucture – I, , Fabric Srtucture – II, Textile Manufacture, Textile Testing, Introduction to Textiles Postgraduate Level: ----7. Number of research guidance at: Particulars Completed Ongoing Master’s --Ph.D. --8. Number of research publications: National Journals Conference/Seminars

07 06



International Journals Conference/Seminars ONE Completed Four Five ---

--Ongoing ---



NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT VII. PROFILE OF FACULTY: 1. Name of faculty:

CHAUDHARI Last name

2. Date of Birth:

//

31 DD

0 7 MM

SATYAJEET First name

//

BABAN Middle name

1 9 75 YYYY

3. Educational Qualification: M.E. (BE/ME/Ph.D.) 4. Area of Specialization: Man Made Fibre 5. Work Experience (In Years): Teaching: 09

Research: - --

Industry: 01

Others: ---

6.Subjects taught at Undergraduate Level:, Weaving, Spinning, Man made fibres Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

02 --



Ongoing ---


--Ongoing -01 -




CHUDASAMA Last name

2 7 // DD

0 4 MM

//

DINESH First name

JAYANTILAL Middle name

1 9 76 YYYY

3. Educational Qualification: M.E. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Weaving, Preparatory, Fabric Structure, Textile Testing, Electronic Control, Technical Textiles, Computer Aided Designing, 5. Work Experience (In Years): Teaching: 09

Research: - --

Industry: ---

Others: ---

6.Subjects taught at Undergraduate Level:, Fabric Manufacture, Yarn Preparatory, Fabric Structure, Testing Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

02 01



Ongoing ---


-01 Ongoing ---




MALEK USMANGANI Last name First name

0 1 // DD

0 2 MM

//

ABDULBHAI Middle name

1 959 YYYY

3. Educational Qualification: M.E. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Spinning, Preparatory, Fabric Structure, Textile Testing, Man made fibres 5. Work Experience (In Years): Teaching: 10

Research: - --

Industry: 15

Others: ---

6.Subjects taught at Undergraduate Level:, , Spinning, Testing Yarn Preparatory, Theory and Design of Textile Machines, Mill Planning Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

04 02



Ongoing ---


--Ongoing ---

10. Number of books published: -11. Number of Patents: --12. Number of Technology transfer:--Signature of faculty


MANDOT Last name

2 6 // DD

10 MM

AADHAR First name //

AMRITLAL Middle name

1 975 YYYY

3. Educational Qualification: M.E. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Spinning, Preparatory, Fabric Structure, Textile Testing, Man made fibres 5. Work Experience (In Years): Teaching: 05

Research: - --

Industry: 04

Others: ---

6.Subjects taught at Undergraduate Level:, , Spinning, Testing, Yarn Preparatory, Weaving, POMF. Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

01 01



Ongoing ---


-01 Ongoing -01 -



AGRAWAL Last name

08 // DD

08 MM

//

SWEETY First name

ASHISH Middle name

1 9 81 YYYY

3. Educational Qualification: M.E. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: Spinning, Textile Testing 5. Work Experience (In Years): Teaching: 01

Research: --

Industry: 00

Others: ---

6.Subjects taught at Undergraduate Level:,, Spinning, Testing, , Weaving, . Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

00 00



Ongoing ---


-00 Ongoing -00 -


NAME OF THE DEPARTMENT: TEXTILE ENGINEERING DEPARTMENT VII. PROFILE OF FACULTY:

1. Name of faculty: 2. Date of Birth:

PAREKH Last name

07 // DD

06 MM

//

UNNATI First name

NARESHKUMAR Middle name

1 9 86 YYYY

3. Educational Qualification: M.E. (Text. Engg.) (BE/ME/Ph.D.) 4. Area of Specialization: -5. Work Experience (In Years): Teaching: 00

Research: - --

Industry:

Others: ---

6.Subjects taught at Undergraduate Level:,. Postgraduate Level: ----7. Number of research guidance at: Particulars Master’s Ph.D. 8. Number of research publications: National Journals Conference/Seminars

Completed ---

---



Ongoing ---


--Ongoing -00 -


GROUP PHOTOGRAPH OF TEACHING STAFF (2009-10)

Standing (L to R): Shri D. J. Chudasama, Shri A. A. Mandot, Shri S. B. Chaudhari, Shri P. Pratihar, Shri U. A. Malek, Ms U. N. Parikh, Dr. H. R. Mankodi, Ms P. S. Kanade, Ms T. N. Shaikh, Ms S. A. Agrawal. Sitting (L to R): Shri H. D. Vaghelia, Shri D. A. Vasavada, Shri J. B. Sanghadia, Prof (Dr.) S. S. Bhattacharya (HEAD), Shri S. T. Vernekar, Shri D. M. Bhawalkar. Not in Photograph: Dr. M V Koranne, Dr P. C. Patel.

GROUP PHOTOGRAPH OF ADMINISTRATIVE STAFF ( 2009-10)

Standing (L to R): Shri M. P. Vasava, Shri S. M. Solanki, Shri S. J. Firke, Shri A. P. Kachhiya, Shri K. L. Pawar, Shri G. N. Rathwa, Shri R. R. Vasava, Shri J. K. Pawar, Shri D. K. Mochi, Shri K. K. Panchal, Ms. B. S. Jaiswal, Shri N. S. Shelar, Shri B. V. Rajput. Sitting (L to R): Shri B. B. Shah, Shri K. J. Kharadi, Shri P. G. Solanki, Shri J. R. Vasava, Prof. (Dr.) S. S. Bhattacharya, Shri N. K. Bhangade, Shri B. J. Rathwa, Shri B. B. Firke

* Shri K. L. Pawar has retired in October 2009.

SCHEME OF TEACHING FOR BACHELOR OF TEXTILE ENGINEERING PRESENT

L

P

T

BE-I (FS) App. Physics-I App.Maths-I Engg. Drg. Mat. Sci. FCE Workshop

4 4 3 4 4 -

3 4 3 3

7 4 7 4 7 3

T

32 BE-I (SS) App. Physics-II Maths&Stat. Method Intro. to comp. & N.A. Textile Fibre Intro. to Textile M/c Drg

4 4 4 4 4 2

3 2 2 2 3

7 6 6 4 6 5 34

BE-II (FS) App. Mechanics F.S.T.P. E.M.T. Engg. Chemistry Thermodynamics Fabric Manu. -I

4 4 4 4 4 4

4 2 4

8 4 4 6 4 8 34

BE-II (SS) Fluid Mech. Stress Analysis F.S. & D.A. Strength of Mat. Fund. of Elect. Engg-I

4 4 4 4 4

2 2 4 4

6 6 8 4 8 32

BE-III (FS) Fabric Manu. - II Y.M.-I Theory of M/c Fund. of Elect. Engg-II Text. M/c cont& QM

4 4 4 4 4

4 4 4 -

8 8 4 8 4 32

BE-III (SS) Y.M.-II P.C. & I Textile Testing M/c Design Op. Res.&Inv. Contl

4 4 4 4 4

4 2 4 2 -

8 6 8 6 4 32

BE-IV (FS) E.T.S. Th.&Des. of Text. M/c. Wvg-III Y.M.-III MMFT-I

4 4 4 4 4

4 4 4 -

4 8 8 8 4

32

BE-IV (SS) Knitting G.M.T. Text Prod Mgt & Cost. MMFT – II TCPM Elective [(i) Adv FS, (ii) Technical Textile, (iii) Nano technology in Textiles]

4 4 4 4 4 4

4 2 2 -

4 4 8 6 6 4 32

TEXTILE ENGINEERING DEPARTMENT FIRST SEMESTER of B. E. I (TEXTILE ENGG) APPLIED PHYSICS-I APH 101 Lecture Marks Tutorials Practicals

3 Hrs/Week 1 Hrs/Week 3 Hrs/Week

Theory Pr/tw/viva Total

100 50 Marks 150 Marks

1. Interference : Types of interference. Fresnel’s bi-prism, white light fringes, determination of thickness of sheet, interference in thin films (conditions for normal incidence), necessity of extended source, Newton’s rings. Michelson interference & its uses. Types of fringes. Antireflection coating, interference filters. 2. Diffraction : Fraunhoffer diffraction at a circular aperture, plane diffraction grating, formation of multiple spectra and determination of wavelength, dispersive power of grating, resolving power of optical instruments, meaning of resolving power. Rayleigh’s criterion of resolution. Resolving poer of grating, prism, telescope and microscope. 3. Polarization : Geometry of calcite crystal. Double refraction, Nicol’s prism. Huygene’s theory of double refraction quarter wave plate. Elliptically and circularly polarized light and production of circularly polarized light. Optical activity. Specific rotation. Fresnel’s theory of optical rotation. Laurent’s half-shade polarimeter. Photo elasticity. 4. Lasers : Spontaneous and stimulated emission, population inversion, structure of laser, properties of laser light (monochromatic, low divergence, coherence). Types of lasers with specification, applications. 5. Ultrasonic : Ultrasonic waves, production and detection, properties and applications of ultrasonic waves. 6. Electricity and magnetism : Magnetic forces on a current, torque on a current loop, hall effect and hall devices, circulating charges, cyclotron and mass spectrometer. Faraday’s law of induction, Lenz’s law. Induction- a quantitative study, time varying magnetic fields. Betatron, Para magnetism, diamagnetism, ferromagnetism, nuclear magnetism & NMR. 7. Thermoelectricity : Seeback effect, variation of thermo-emf with temperature, thermoelectric series, measurement of thermo-emf, law of intermediate metals. Law of intermediate temperatures. Peltier effect. Thomson effect. Total emf in a thermocouple, thermoelectric power, applications of thermoelectric effect. 8. Modern Physics : Artificial radioactivity, artificial transmutation, nuclear reactions and q-value. Types of nuclear reactions, structure of nucleus, nuclear constituents, proton-neutron theory, general properties of the nucleus. Atomic mass unit, mass Defect and Packing fraction. Nuclear binding energy, nuclear forces, nuclear models. 9. Nuclear fission : Theory of nuclear fission, energy released in nuclear fission, the chain reaction, thermonuclear reactions, atom bomb, stellar energy, nuclear reactors. 10. X-rays: Discovery & production of x-rays, origin and properties of x-rays, diffraction of x-rays, Bragg’s law, x-ray spectrometer and crystal structure, powder method, applications of x-rays. APPLIED MATHEMATICS-I AMA 112 Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practical -Marks


100 Marks -100

UNIT - 1 CALCULUS: Reorientation. Functions of one variable. Applications of Derivatives-curvature. Successive Differentiation Partial Derivatives, Leibnitz rule for the nth order derivative of a function, Techniques of Partial derivatives.

UNIT - 2 INFINITE SERIES: Sequences and their convergence, convergence and divergence of infinite series, Geometric series, P-series, A necessary condition for convergence, Comparison test, Ratio test, Absolute convergence and conditional convergence of alternating series. Expansion of functions : Macluarins & Taylor's expansion with remainder form. Indeterminate forms, L'Hopspital's rule. UNIT - 3 COMPLEX ALGEBRA : Complex numbers "& their geometrical representation, Complex numbers in polar form, Demoivre's theorem and its applications. Exponential, Logarithmic,Trigonometric & Hyperbolic functions. UNIT - 4 DIFFERENTIAL EQUATIONS: Reorientation. Modeling of Engineering systems pertaining to first order differential equations, Exact differential equations, Integrating factors, Unified approach to first order ordinary differential equations, equations of first order and higher degree. UNIT - 5 Linear differential equations of higher order with constant coefficients and with variable Coefficients, models of higher order differential equations. UNIT - 6 Method of variation of parameters and simultaneous linear differential equations. Method of solution in series, Bessel and Legendre's equations. Properties of Bessel functions, introduction to Legendre polynomials. TEXT/REFERENCES: 1. Advanced Engineering Mathematics by Erwin Kreyszig.(6th edition) Johnwilley & sons. 2. Text Book of Engineering Mathematics - Dhanpat Rai & Sons,Delhi. by Srivastava -Dhavan 3. Differential Calculus by Shantinarayan S. Chand & Co. New Delhi. 4. Advanced Calcus by Willfred Kaplan-Addison Weseley Publ.company,Inc. 5. Advanced Engineering Mathematics-C.R.wylie,Mc.Graw-Hill,Inc.

ENGINEERING DRAWING ME-01 Lecture 2 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week


100 Marks 50 Marks 150 Marks

1. 2. 3. 4.

Plane Geometry, types of lines, lettering, geometrical construction, tracing or curves. Projection of points, lines and projection on auxiliary planes. Orthographic projection and Isometric drawing of machine parts and sections. Threads, bolts, studs, nuts set screws split pins, keys, rivets, shafts, pulleys, foundation bolts, standard sections. 5. Cotter joints, knuckle joint, riveted joints, welded joints and couplings. 6. Sketches of above parts. ELEMENTS OF MATERIAL SCIENCE MET 1101 Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --


100 Marks -100 Marks

1. Engineering requirements of materials: Criteria for selection of materials for engineering applications on the basis of mechanical properties. 2. Crystallography: Crystal structure, space lattice, unit cell, crystal systems atomic packing factor, co-ordination numbers, crystal structure for metallic elements. Crystal directions and planes, Miller indices, stacking sequence in HCP and FCC. 3. Metallic Materials: Phase, diagram, Gibbs phase rule, Binary isomorphous phase diagram, purely eutectic binary phase diagram, partially eutectic binary phase diagram, solid solution-Hume Rothery Rules. 4. Imperfections: Point defects, Line defects and Area defects-grain boundary, till boundary and twin boundary grain, grain size number. 5. Cold working and annealing: Effect of grain size, alloying element and heat treatment on properties of material. Failure of metals-Ductile, Brittle, Ductile-to-Brittle transition, creep failure and fatigue failure. 6. Ceramic and Polymeric material: Structure, properties and applications of above materials. Glasses and refractories. Types of polymerization like condensation and Co-polymerization. Ageing aulcanization, cross-linking and branching. 7. Corrosion: Types of corrosion-Dry and Wet corrosion. Electro chemical and oxidation (Chemical) corrosion. E m f series and Galvanic series, stress concentration and compositional cells, corrosion prevention-Galvanic potential and coatings. 8. Classification of Insulator, Semi conductor and conductor on the basis of Band theory, ferromagnetism, Hard and Soft magnetic material. 9. Composite materials (PMC, CMC, MMC) and new developments Metallic glasses, super conducting material and optic fibre. • Numericals related to above topics: TEXT/REFERENCES: 1. Elements of material science and engineering – L H Van Vlack, Addison-Wesley Publising Company 2. An Introduction to material science and engineering – William D. Callister 3. Material Science and Engineering – V Raghavan FUNDAMENTALS OF CIVIL ENGINEERING C 1101 Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Pr/Drg 3 Hrs/Week



(I) Theory : (A) ENGINERING MATERIALS : 1. (a) Bricks: Classification of bricks, factors affecting quality of bricks, characteristics of good bricks As per ISI specifications - Field bests of bricks, special forms of bricks, field test for brick, Bricks for specific purposes like refractory bricks. (b) Stones: Types and classification of stones, characteristics of good stones, choice and uses of stones, Dressing of stones. 2. (a) Lime : Classification of lime, characteristics of good lime, slaking process of lime, I.S. specification of lime (b) Cement : Basic ingredient of ordinary cement - Physical properties of cement, Field examinations of cement, storing of cement, varieties of cement and its uses, I.S. specification of ordinary cement. 3. Mortar and concrete : Specifications of ingredients for mortar and concrete, classification of mortar and concrete, selection of mortar and its uses, Precautions in using mortar, Production and quality control of concrete, Physical properties of concrete. 4. (a) Timber : Characteristics of good timber, Impotence of seasoning of timber, Requirements of good preservations, Market forms of timber. (b) Plastics, Steel & Glass : Basic types of plastics - physical & mechanical properties of plastics, uses of plastics in various engineering field, uses of steel, properties of mild steel, market forms of steel, composition of glass, properties and uses of glass - special varieties of glass. (B)SURVEYING :

5. Introduction : Principle, role of survey, classification, basic instruments in linear and angular measurements, chain, tape, compass, uses, field work and notes, survey drawings, conventional symbols, scale. 6. Leveling : Temporary adjustments, field work, computation of levels, arithmetic checks, profiles and contours from level data, area measurements by field measurements from drawings, sue of planimeter. (C) BUILDING CONSTRUCTION : 7. Types of constructions: Typical details of load bearing and framed structures, brief discussion and illustrations by sketches of typical important building components, suck as light and medium type foundations, lintel, flooring, roofing, different types of doors, typical finishing items, like plastering and painting. (D) INTRODUCTORY ENVIRONMENTAL ENGINEERING : 8. Terminology: Air, water and land pollution, introduction to various type of pollution and remedial measures for control, environmental protection and legislation, water & waste water quality criteria, disposal of wastes. (II) Term work : Termwork will consist of practicals, drawings and sketches based on the above topics of the subject. WORKSHOP ME02 Lecture Tutorials Practicals

--3 Hrs/Week


-50 Marks 50 Marks

Carpentry – Name, use and setting of hand tools, construction of halved single mortise and tenon joints, dovetail joints, bridle joint, oblige mortise and tenon joint and rafter joint Smithy – Tools used for preparing simple jobs in hand forging Termwork – Each candidate shall submit to the examiners, the term work as mentioned below which will be allotted marks up to a maximum of 50 with a certificate from the dean, Faculty of Tech. & Engg. that it was completed by him in a satisfactory manner within the walls of the college Carpentry – At least 4 different joints Smithy – At least 4 different jobs When once a set of job has been submitted for the examination unless new jobs are presented. A candidate whose marks in term work are thus carried over shall be eligible for a class. SECOND SEMESTER of B. E. I (TEXTILE ENGG)

APPLIED PHYSICS II Lecture Tutorials Practicals




1. FIBRE:(1L) Natural and manmade fibres, growth of fibre and effect of temperature, pressure and other parameters on fibre. 2. EQUILIBRUM ABSORPTION OF WATER: (8L) Humidity and relative humidity, dew point, measurement of humidity and hygrometers, regain and moisture content, measurement of regain, relation between regain and relative humidity, influence of temperature and stress. 3. COLOR SCIENCE: (5L) Beer’s Law, Colorimetry, additive color mixture, three color mixture, spectrophotometry, dominant wavelength and purity, Subtractive method of color mixing, the color of paints & inks, Subtractive primaries. 4. OPTICAL INSTRUMENTS AND THEIR USE IN TEXTILE: (8L) Compound microscope, oil immersion microscope, electron microscope and their use in studying surface and structure of fibre, polarization microscope, spectrophotometer and interpretation of IR, visible and UV spectra. 5. FIBRE FRICTION: (9L) Technological effects, measurement of fibre friction: Bowden and Leben’s apparatus, Guthrie and Oliver’s apparatus, static and dynamic capstan method, Buckle and Pollitt’s Technique and measurement of inter-fibre friction, static and kinetic friction and state of the surface,

General theory of friction and application to fibre, theory of directional frictional effect. And lubricated condition. 6. TENSILE PROPERTIES: (9L) Stress, specific stress, tensile stress, strength, work of rupture, elongation at break, initial modulus, work factor, yield point, and crimp, experimental techniques to study elasticity, effect of moisture, temperature and light in the study of elastic properties. The effect of variability, Pierce’s, Specers-Smith’s and weak-link theories, Elastic recovery: Experimental methods, influence of test conditions on recovery and simple recovery models. 7. PHOTO ELECTRIC EFFECT: (5L) Einstein’s equation, Photomultipliar tube, semiconductor, pnJunction diode, LED, Photoconductive cell, Photovoltric cell. TEXT/REFERENCES: 1. Physical properties of Textile fibres by W.E. Morton and J.W.S. Hearl 2. Optics by F.W. Sears 3. Engg. Physics by Gaur and Gupta.

MATHEMATICS & STATISTICAL METHODS AMA 122 Lecture Marks Tutorials Practicals




UNIT 1 PARTIAL DIFFERENTIATION: Function of two variables. Limits, continuity and partial derivatives. Chain Rule. Euler’s theorem. Implicit function. Differentiation. Applications of Partial derivatives. Tangent planes and normal lines to above surfaces (by calculus method). UNIT 2 VECTOR CALCULUS: Scalar and vector fields. Gradient of a scalar function. Directional derivatives. Divergence and Curl of a vector field and their applications. Line Integrals, length of a arc curves, discussion on the curve helix. UNIT 3 Multiple Integration: Double Integral, Change of order of Integration, Changing from Cartesian to Polar Co-ordinates, Triple Integration, Applications of Double and Triple Integration. UNIT 4 Preparation of frequency distribution, presentation of frequency distribution into graphs (histogram, frequency curve and frequency polygon, ogive curve). Measures of central tendency, measure of dispersion, skewness. Curve fitting (least square approximation) Correlation and regression analysis. UNIT 5 Probability theory, Discrete Probability Distribution, Distribution – Binomial, Poisson and Continuous probability distribution. UNIT 6 General idea of Sampling, methods to draw a random sample, Confidence interval for mean General idea of testing of hypothesis, acceptance sampling plan by attributes (single), large and small sample tests (mean, variance and proportion). Control Chart. TEXT/REFERENCES: 1. Advanced Engineering Mathematics by Erwin Kreyszig.(6th edition) Johnwilley & sons. 2. Text Book of Engineering Mathematics - Dhanpat Rai & Sons, Delhi. By Srivastava -Dhavan 3. Differential Calculus by Shantinarayan S. Chand & Co. New Delhi. 4. Advanced Calculus by Wilfred Kaplan-Addison Wesley Pub. company, Inc. 5. Advanced Engineering Mathematics-C.R. Wyllie, McGraw-Hill, Inc. 6. Richard A, Probability & Statistics for Engineers, Johason, Phi, 1996 7. Sheldon P. Gordon & Florence S. Gordon: Contemporary Statistics, McGraw- Hill, Inc.1994 INTRODUCTION TO TEXTILES Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week Practicals 2 Hrs/Week



Classification of fabrics based on methods of manufacture, type of finish, raw material used, end uses, etc. Concept of fabric manufacture: Weaving, knitting, non-woven and lacing. Physical properties of woven fabrics, knitted fabrics, their uses and comparison with woven fabrics. Concept of fabric designing, fashion, market trend, etc. Concept of yarn preparation. Classification of yarns: Physical properties of yarns and fibres. Concept of yarn manufacture - concept of spinnability, different systems of staple yarn manufacture. Chemical processing: Importance of chemical processing. Concept of different processes. PRACTICALS: Based on the above syllabus conducted during the semester. TEXT/REFERENCES: 1. Corbman : Fibre to Fabric 2. H.V.S. Murthy : Textile Fibres 3. B. C. Goswami : Textile Yarns 4. Eric Oxtoby : Spun yarn technology TEXTILE FIBRES Lecture Tutorials Practicals

3 Hrs/Week 1 Hrs/Week --



General classification. Structure, growth, geographical distribution, cultivation, grading, properties, end uses of important natural fibres. Cotton ginning. Study of physical properties and uses of manmade fibres. Study of methods used in production of man-made fibres by wet spinning, solvent spinning and melt spinning. INTRODUCTION TO COMPUTER AND NUMERICAL ANALYSIS AMA 221 Lecture Marks Tutorials Practicals




[A] C Programming: • Algorithms, effective procedures in problem solving, flowcharts, pseudo-code • C Preliminaries: Data types, Constants, variables, Type specification statements, operators and expressions Library Functions, Simple C programmes. • Control Structures: Importance and types of control structures, Structured programming. IF--ELSE, While, Do ---While, For, Switch structure, GO TO continue and Break statement. [B] NUMERICAL ANALYSIS AND APPLICATION PROGRAMMING • Finite differences, Newton’s interpolation formulae, Lagrange's formula • Numerical integration, Trapezoidal Rule, Simpson's rule. • Solution of equation of one variable: Bisection method, Regula-falsi, Newton-raphson Method. • Introduction of Matrix Algebra, Rank of Matrix, Consistency of system of equations • Solution of systems of linear equations: Gauss-Seidel, Jacobi, Gauss-elimination methods. • Numerical solution of differential equation: Euler’s Method, Modified Euler Method, Runge-Kutta method • Finite difference methods for ordinary differential equations. TEXT/REFERENCES: 1. Sudhir kaiker programming in C 2. Kernighan B.W. and Ritchie D.M.: The C programming Language. 2nd edition. 3. Numerical Methods for Scientific & Engineering Computation by M.K. Jain, S.R.K. Iyengar, R.K. Jain - Willey Eastern Ltd. 4. Textbook on engineering Mathematics by Bali, Saxena and Iyenger Laxmi publications Ltd. 5. Introduction to Numerical Analysis - S. S. Shastry, Prentice Hall of India. MACHINE DRAWING

Lecture Marks Tutorials Practicals

2 Hrs/Week -3 Hrs/Week



Line convention and dimensioning methods (IS ¾ code 696), Line and block schematics, flow diagrams, circuit diagrams, fasteners and welding, sectioning methods and conventions, assembly of parts, exploded assembly and shading. Building drawing, perspective drawing, architectural drawing, conventions of limits, fits and tolerance, machine symbols. TERM WORK: Based on the above syllabus conducted during the semester. VIVA EXAMINATIONS: Oral examination will be based on the term work. TEXT/REFERENCES: 1. N. D. Bhatt : Machine Drawing 2. R. S. Khurmi : Machine Drawing 3. S. B. Jurnarkar : Machine Drawing FIRST SEMESTER OF B. E. II (TEXTILE ENGG) APPLIED MECHANICS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Coplanar forces acting at a point. Force polygon. Resultant of a force and couple. Equilibrium of coplanar forces. Funicular polygon. Parallel forces. Reaction of beams. Center of gravity and centroid of the plane sections. Moment of Inertia of the plane sections. FRICTION: Equilibrium on a rough inclined plane,. Angle of friction. The wedge. The screw. The screw jack. LIFTING MACHINES: Basic machines. The differential principles. Pulley blocks. Crab winches. Worm gearing, Linear law. Compound efficiency. ROPE AND BELT DRIVE: Simple and compound belt drive. Velocity ratio. Length of the belt. Transmission of power. Centrifugal tension. Rope drive. TOOTHED GEARING: Simple and compound wheels of trains. Design of wheel train., Gearbox of motorcar. Epicyclic gearing. Reverted trains. Hump age’s speed reduction gear. Differential gear. Strength and elasticity of materials: Stress and strain. Hooke’s law. Elastic limit. Ultimate stress. Factor of safety. Lateral strain. Poisson’s ratio. Tension Compression and shear. Complementary shear stress. Elastic constants and relations. Suddenly applied an impact loads. Resilience. Fatigue of metals. Resolution of stress: Principal planes and principal stresses. Mohr’s stress circle. PRACTICAL / TERM WORK: Laboratory work: A minimum of ten experiments. Graphic statistics: A minimum of ten exercise problems based on the above topics. Laboratory work shall be presented by the candidate in the form of laboratory journal. The graphic statistic work shall be presented by the candidate in the form of drawing file. TEXT / REFERENCES: 1. Applied Mechanics by S. B. Junnarkar and H.J.Shah 2. Mechanics of structures Vol.-I by S. B. Junnarkar and H.J.Shah 3. Engineering Mechanics by H. Shames, Practice Hall Publications 4. Applied Mechanics by D. A. Low 5. Applied Mechanics by Ramamrutham 6. Applied Mechanics by R. C. Patel and B. M. Patel, C Jamanadas & Co. FIBRE SCIENCE & TEXTILE PHYSICS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --



Basic requirement for fibre formation, long chain molecules, crystal structures, crystal binding. Investigation of fibre structure using infrared absorption method. Study of X –ray diffraction patterns of fibre, study of crystallinity (amorphous and crystalline regions). FIBER DENSITY MEASUREMENT: Displacement of liquid method, specific gravity bottle method. Flotation method. Abbott – Gooding method, and density gradient tube method. SWELLING: Fibre expansion due to water absorption,

expansion coefficients, relation between them and their experimental determination. ELECTRICAL PROPERTIES: Dielectric properties, Electrical resistance of fibres and its measurement, static electricity, measurement and explanation of static phenomena. OPTICAL PROPERTIES: Refraction, absorption and dichroism, reflection and luster. THERMAL PROPERTIES: Thermal parameters, structure changes in fibres on heating. TEXT/REFERENCES: 1. fibre structure by Hearle and peters 2. Physical properties of Textile fibres by W.E. Morton and J.W.S. Hearle 3. Introduction to Polymer Physics by Perepechko ENGINEERING MANUFACTURING TECHNOLOGY Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week Practicals --


100 -100 Marks

BASIC MANUFACTURING PROCESS: Cold Working And Hot Working Processes e.g Rolling, Forging, Sheet Metal Work Etc. Casting-Processes, casting terminology, advantages, disadvantages, application of each process, Sand casting, Die Casting, Centrifugal Casting, Shell Moulding. Welding Processes-Gas Welding, Arc Welding, Resistance Welding, Soldering & Brazing. Finishing Operations-Honing, Lapping, Buffing, Super Finishing, Surface Treatment, Plating Etc. Metal CuttingPrinciples, Merchant's Circle diagram, Tool Geometry, Tool Signature. GENERAL PURPOSE MACHINE TOOLS: Construction, working principle, types, specifications, functions of major components, possible operations, tools used.Lathe machine, Drilling machine, Shaping machine, Milling machine, Slotting machine, Planning machine, Grinding machine, and Broaching machine. INTTODUCTION TO ADVANCED MACHINING PROCESS: Working principle, construction, tool materials, work piece materials, advantages, disadvantages, application, MRR, tool erosion/wear, surface finish. Abrasive jet machining, Ultrasonic machining, Electro Discharge machining, Electro Chemical machining, Laser Beam machining. MEASURING INSTRUMENTS: Micrometer, vernier caliper, height gauge, depth gauge, dial gauge, plug gauge,snap gauge, sine bar, slip gauges, comparators. LIMITS FITS AND TOLERANCES: JIGS AND FIXTURES.: MACHINE SHOP ESTIMATION AND COSTING.: ENGINEERING CHEMISTRY Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week Practicals 3 Hrs/Week



PHYSICAL CHEMISTRY: Hydrolysis, Degree of hydrolysis, Colloids, osmotic pressure and its determination, Reverse osmosis, catalysis adorption. INORGANIC CHEMISTRY: General principle of extraction of metals, extraction of iron chromium, manganese, silver, alloys, alloy steels, thermite process, sodium hydroxide, sodium carbonate, suphuric acid, hydrogen sulphide, fuels, water for industrial and boiler feed purposes, treatment of boiler feed water, de-mineralization of water, bleaching powder and bleaching solutions, ozone, hydrogen peroxide, boric acid, borex perborates, sodium, sodium-thiosulphate, hydrosulphate. ORGANIC CHEMISTRY: Ethane, ethylene, acetylene, polymerisation of ethylene. Ethyl-chloride, methanol, ethylene glycol, carbohydrates, polysaccharides, cellulose, starch, c.m.c., plastisizers, alicyclic compounds. Ethyle acetate, acetaldehyde, acetone, carboxylic acids, amides, amines, benzene, toluene, nitrobenzene, aniline, phenol, benzoic acid, phthlic acid, napthlene, polyester, polyamides, anthracene, heterocyclic compunds, furanthiophene, pyridine. PRACTICAL / TERM WORK: Preparation of standard solutions, volumetric analysis, involving oxidation, reduction, iodimetry, determination of hardness of water, qualitative analysis of inorganic, substances soluble in water or hydrolic acid. TEXT/ REFERENCES : 1. Parekh, Gandhi, and Bhagwat : Inorganic chemistry 2. Soni : Inorganic chemistry 3. Uppal : Engineering chemistry

4. Bahl and Tuli chemistry 5. MEE 6. Shah, Mehta & Jadhav 7. Jain & Jain

:

Essential

of

Physical

: Physical Chemistry : Practical Chemistry : Engineering Chemistry

THERMODYNAMICS Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week Practicals --


100 -100 Marks

BASIC CONCEPTS AND SEFINATIONS: Classical (Equilibrium) and Statistical thermodynamics -macroscopic and microscopic points of view, thermodynamic system, surroundings, system boundary, control mass and control volume thermodynamic properties, processes and cycles, thermal equilibrium, quasi-static process- pure substance, continuum concept. ENERGY INTERACTIONS: Thermodynamic definitions of work and heat -displacement of P-dV work and other types of work interactions -net work done by a system, free expansion with zero work done, work interaction: a path function. Zeroth law of thermodynamics, concept of ideal gas thermometer. FIRST LAW ANALYSIS: Statements of first law of thermodynamics for a closed system undergoing a cycle and a change of state -consequence of the first law -heat as a path function, energy as a thermodynamic property, perpetual motion machine of first kind, different forms of energy -enthalpy –specific heat at constant pressure and constant volume, First law analysis of elementary processes such as isochoric, isobaric, isothermal, adiabatic and polytropic undergone by an ideal gas. First law applied to flow processes -mass and energy balance in simple steady flow process- application of steady flow energy equation to systems like nozzle, diffuser, throttling devices, pumps, compressors, turbine and heat exchanger general form of energy equation. SECOND LAW ANALYSIS: Thermodynamic definition of heat engine, direct and reverse heat engine, diagrammatic representation of heat engine, performance parameters of direct and reverse heat engine - statement of second law of thermodynamics -KelvinPlank and Celsius statement- perpetual motion machine of the second kind -Concept of reversibility, reversible process and reversible cycle -conditions of reversibility -irreversibility -Carnot reversible cycle -Carnot theorem and its consequences -definition of thermodynamic (Absolute) temperature scale using the concept of reversible engines. EQUATION OF STATE FOR IDEAL GASES: Application of First and Second law to the processes undergone by an ideal gas. THERMODYNAMIC RELATIONS: Maxwell relation, T -dS relations, specific heat relations, Clausius-Clapeyron equation. BASICS OF HEAT TRANSFER: Steady state conduction heat transfer in one dimension, Fourier law of conduction, Simple conduction problems like plane wall, composite wall, cylinder, composite cylinder, convective heat transfer, Forced & Free convection, Newton's law of cooling. Correlation for forced and free convection -simple problems on convection. Thermal Insulation -Estimation of heat loss through insulation. TEXT/REFERENCES: 1. Engineering Thermodynamics, 2. Thermal Engineering 3. A course in Heat & Mass Transfer FABRIC STRUCTURE & DESIGN ANALYSIS Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week 50 Marks Practicals 2 Hrs/Week 150 Marks

P.K.Nag Domkundwar Domkundwar Theory

100 Pr/tw/viva Total

Fabric classification, concept of weave, representation of design draft, peg plan, and denting order, and their inter relation. Plain weave, ornamentation of plain weave and derivatives of plain weave. Simple twill and its characteristics. Sateen and satin weaves and their characteristics. Various derivatives of twill and sateen/satin weave. Diamond and diaper weaves Honey comb, huck – a – back , mock leno, Distorted thread effect, crepe, bed ford cords, welts and pique. Characteristics of different fabrics.

PRACTICAL / TERM WORK: Analysis of different fabric sample referred in the syllabus. TEXT/REFERENCES: 1. Textile Design and Colour: Z. Grosesicki 2. Woven cloth construction Marks and Robinson

SECOND SEMESTER OF B. E. II (TEXTILE ENGG) FLUID MECHANICS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week


100 Marks 50 Marks 150 Mark

Introduction to fluid mechanics and its role in engineering. Fluids- definitions and types, fluid properties and units of measurements. Hydrostatic pressure and its distribution, measurement of pressure, gauges and manometers. Hydro-static forces on submerged surface areas plain and curved. Total pressure. Resultant pressure center of pressure and their computations. Relative equilibrium –motion with linear uniform acceleration rotation with vertical axis. Fluid flow. continuous concept. Fluid particle and flow description. Types and classes of flow. Kinematics of flow. Flow viscosity. Description of fluid flow. Stream lines. Path lines. Stream function velocity, potential flow acceleration. Translation, rotation and deformation of fluids. Concept of circulation and velocity. Irrotational fluid flow. Net equation of continuity. Dynamics of flow, fluid forces-stress and strain equation of motion. Eulers equation. Bernoulies equation and its modification and application. Kinetic correction fector. Fluid flow (Incompressible) through close conduits, laminar flow- turbulent flow, Reynolds experiment, Froudes experiment, Laminar flow through pipes and between parallel plates. Velocity distribution and loss of heat. Turbulent flow through pipes. Friction factor for smooth and rough pipes. Moody diagram and its use. Minor loss of heat in flow through pipe at expansion, contraction etc. Energy gradient and hydraulic gradient. Shyphone pipe. Flow through uniform pipe between two reservoirs – compound pipe- equivalent length pipes in parallel branching pipes. Power transmissions by pipes. Flow measurement. Flow through orifices and mount pieces. Flow of various types, co-efficient of discharge and velocity flow over notch rectangular, triangular measurementventure meter- orific meter- pilot tubes. PRACTICAL / TERM WORK: Term work, experiment and tutorial will be based on above topics. TEXT/REFERENCES: 1. Dr. R.M. Dave : Fluid Mechanics Part -I 2. A.K.Jain : Fluid Mechanics 3. R.M.Modi ande S.M.Shah : Hydraulics and Fluid Mechanics 4. H.R.Vallentine : Applied Hydrodynamics STRESS ANALYSIS Lecture Marks Tutorials Practicals




Introduction to elementary theory of elasticity, Generalized Hooke’s law, Equilibrium, Compatibility, Plane stress and plane strain problems, Stress on arbitrary plane, Airy’s stress function, use of polynomials, St. Venant’s principle. Theories of failure, torsional distortion. Stress and strain at a point in two or three dimensional problems, Analytical and graphical problems, Visco-elastic models Maxwell Erving- 4 elements models. Model analysis: Standard method of model stress analysis, Dimensional Buckingham theorem, Analysis and design of models for machine parts. Mechanical, optical and electrical strain gauges. Transmission of strain gauges data into desired results, static and dynamic strain measurement. Introduction to two dimensional photo elasticity. Vibration of shafts, whirling of shafts. PRACTICAL / TERM WORK: It consists of submission containing Lab/Tuto/Drg/Design work done based on above stated syllabus. TEXT/REFERENCES:

1. 2. 3. 4. 5.

S.Timoshenko J.W.Dally and W.P.Riley R.C.Dove and P.H.Adams A.J.S.Pipared and J.F.Baker S.Timoshenko and J.N.Goodier

: Elementary strength of materials : Experimental stress analysis : Experimental stress analysis : The analysis of engineering structures : Theory of elasticity FABRIC MANUFACTURE – I

Lecture Tutorials Practicals




WINDING: Objects, different winding machines, winding packages, parallel, random, precision and stepped precision winding. Winding package parameters. Creel, balloon breakers, tensioners, mechanical clearers, knots, introduction to splicing, basic of electronic yarn clearers. Yarn fault classification, concept of clearing curve. Methods of yarn traversing, drive, package faults and their remedies. Calculations related to winding and brief introduction to filament winding. WARPING: Objects, classification, details of parts of direct warping and sectional warping, drive, features of modern warping machines, process control aspects and calculations. PIRN WINDING: Objects, classification, weft supply systems, types of pirns, build up drive, traversing and advancing, process control aspects and calculations. AN OUTLINE OF WEAVING PROCESS: Shedding, scope of tappet, dobby and jacquard shedding, tappet shedding, reversing mechanism, shedding with positive cams. Picking: Types, Over pick and under pick mechanisms, shuttle checking. Beat up mechanism. Let Off: Negative let off mechanism. Take up: cloth wind up system, seven wheel, rayon and Shirley take up mechanism. Warp protector motion: fast reed, loose reed, electromagnetic. Weft stop motion: side weft fork. Brief discussion on healds, reeds, fabric faults. PRACTICAL/TERM WORK: Practicals and term work will be based on the above course conducted during the semester. Measurements and calculations wherever applicable. TEXT/REFERENCES: 1. R.Marks and Robinson: 2. P.R.Lord and M.H.Mohemad 3. K.T.Aswani 4. Talukdar, Shriramalu and Ajgaonkar 5. J.E.Booth 6. Talukadar 7. BTRA 8. ATIRA STRENGTH OF MATERIALS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --

Principles of weaving Conversion of yarn to fabric Plain weaving motions Weaving, machines, mechanism, management Textile Mathematics Vol-III Introduction to winding and warping Winding monogram series Process control in weaving Theory Pr/tw/viva Total


Diagrams of bending, moments and S.F. in cantilevers and simply supported beams under static load analytically. Theory of bending of straight beams. Distribution of normal stresses due to bending. Moment of resistance, Moment of inertia of section. Beam of uniform strength. Distribution of shear stress. Curvature, Slope and deflection of cantilever and simply supported beams, Flitched beams. Simple strut theory, Rankine’s and other formulae. Torsion, Moment of resistance, Distribution of stresses, Angle of Twist, Strength and stiffness of shafts. Types of springs in general. Thin and thick cylinders subjected to internal and external pressures. Carriage springs and closed coiled helical springs. TEXT/REFERENCES: 1.

Mechanics of Structure Vol. –I

by S.B.Junnarkar and H.J.Shah

2. 3. 4.

Strength of Materials Strength of Materials Strength of Materials

by R.C.Patel , T.D.Bhagia and B.M.Patel by Ramamruthan by R.S.Khurami

FUNDAMENTAL OF ELECTRICAL ENGINEERING – I Lecture Marks Tutorials Practicals




Review of Ohm’s law. Kirchoff’1s laws. Series and parallel circuits. Star –Delta transformation. Their application in solution of simple d.c.circuits. Sinusodial e.m.f.’s and currents. R.M.S. and average value. Phaser representation. Voltage- current relation in purely resistive and capacitive circuits and their series combination. Power and power factor.Polyphase system. Relation between phase and line voltage and currents of star and delta connections. Power balances 3 phase circuits. Measurement of power. D. C. GENERATORS: Principle of working. Types of generators. Their characteristics and applications. SINGLE PHASE AND THREE PHASE TRANSFORMER: Review of Faraday’s law and Lenz’s law. Self and mutual induction. Types of transformers. E.M.F. equation. Transformation ratio. Transformer on no load and on load conditions. Vector diagram. Equivalent circuit. Losses and efficiency: All day efficiency O.C. and S.C. and test on transformer. Auto transformer, 3-phase transformer connections. Applications. PRACTICAL/TERMWORK: About 12 to 15 experiments based on the above syllabus. TEXT / REFERENCES: 1. Basic Electrical Engineering by V.N. Mittle 2. Electrical technology by B.L. Theraja 3. Problems in Electrical Engineering by Parker Smith

FIRST SEMESTER OF B. E. III (TEXTILE) (ENGG) FUNDAMENTALS OF ELECTRICAL ENGINEERING – II Lecture 3 Hrs/Week Marks Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



[A] A. C. Mahcines: INDUCTION MOTOR: Construction, Types of I. M. principle of working. Slip. Starting torque under running conditions. Torque slip curves of I. M. measurement of slip. Power stages in I. M. speed control. Single phase I. M.-Types and applications. ALTERNATORS: Constructional details, e.m.f. equation. Alternator on load. Vector diagrams of loaded alternator. Voltage regulation. O. C. and S. C. test on thirty alternator or synchronizing of alternators. SYNCHRONOUS MOTOR: Principle of working. Method of starting. Motor on load. Power stages of synchronous motor. V- characteristics of synchronous motors. Applications. [B] Electronics: Conductors, semi-conductors and insulators. Intrinsics and extrinsic semi-conductors. Conduction in p-n, n-p-n and p-n-p junctions, their characteristics. Zener diode, photo diode and display devices. Simple circuit diagrams and working of C.B., C. E. and C. C. amplifiers. Comparison and application (no analysis). THYRISTOR APPLICATION: Contracted rectifiers and invertors. Motor speed control. OSCILLOSCOPE: C. R. tube, basic circuit block diagram and its working. Measurement of voltage, current, frequency and phase using C.R.O.. Different types of meters. Bridge measurement. PRACTICAL / TERM WORK: Twelve to fifteen experiments based on the syllabus.

TEXT / REFERENCES: 1. H. Cotton 2. B. L. Theraja 3. H. Cotton 4. Parker Smith 5. Millmar and Halkiass 6. Cooper 7. Bagde and Singh 8. B. S. Bhimbra 9. Barde 10. V.K.Mehta 11. A.P.Malvino

: Applied Electricity : Electrical Technology : Advance Electrical Technology : Problems in Electrical Engg. : Integrated electronics : Electronic instrumentation : Electronics : Power electronics : Power electronics : Electonics : Semiconductor Circuit Approximations

TEXTILE MACHINE CONTROL & QUALITY MANAGEMENT Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --



Textile Machine Control : Introduction to controls, PLC, DCS, Control valves, sensors, converters and relays. Electronic controls and automation in textile machines. Signal conditioning data collection and processing. Microprocessors and logic controllers, Pneumatics applications in textiles. Robotics: Introduction and applications in textile. Quality Management: Concepts and various systems, Need, relevance and tools. Documentation and standardization . Various standards for management systems. Flexibility and change in management systems and documentation procedures. ISO 9000 – Importance and Implementation procedures. TQM.Environment protection act , SA 8000 etc. TEXT / REFERENCES: 1. NCUTE Publication, Hiren Joshi, Electronic Controls for Textile Machines.: Gauri Joshi 2. Bela J. Lipak : Process Control 3. Andrew Par : Industrial Control Hand Book 4. NCUTE Publication : Textile Machine Controls 5. Brochures/ Manuals of machine : Manufacturers and other related publications. 6. J.M.Juran : Quality Planning and Analysis 7. P.L.Jain : Quality Control and TQM 8. Publications of TRAs and other agencies on quality management, ISO 9000, TQM and environment. 9. G.Shanmmugam, T.Sivasantaran, D.Sarvanan NCUTE publicatios Quality Control Technique

YARN MANUFACTURE – I Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Objects of blow-room, Principles of opening, cleaning and mixing of fibres. Principles and mechanics of various blow-room machines. Assessment of blow-room performance. Recent developments in blow-room machines. Engineering aspects of blow-room machines. Blow-room calculations. Processing of man-made fibre/blends in blow-room. Direct feed systems in cards, Principles and objects of carding, constructional details and working. Card calculations. Recent developments in Blow Room and Card . Assessment of performance of card. Processing of man-made fibres and blends on card. Maintenance schedule, work allocation, production balancing etc. at blow-room and card. Formulation of a mix, concept of yarn realization , control of waste at blow-room and cards. PRACTICAL / TERM WORK: Based on the above course conducted during the semester. TEXT / REFERENCES: 1 2 3 4 5 6 7 8 9 10 11 12 13

Textile institute & Butterworth : Manual of cotton spinning a) vol.-2: Opening & Cleaning. b) vol.-3: Carding. Textile Institute manual of A practical guide to opening and Carding bytextile technology: By W. Klien, Vol -2 Textile Tnstitute manual of The technology of short staple spinning (Short staple textile technology:spinning series ) By W. Klien, Series editor – Dr. H. Staldar. Gilbert R. Merril: Cotton Opening and Picking. Gilbert R. Merril: Cotton Carding. Dr. Zolten S. Szalook: a)Opening, Cleaning and Picking, High speed carding and continuous card feeding. A. R. Garde and Subramanium: Process control in cotton spinning. W. S. Taggart: Cotton spinning. K. R. Salhotra ( T. A. I. ): Spinning of man-made and blends on cotton system. SITRA: Maintenance, management in spinning. M. E. I.: Handbook. A. R. Garde: Spinning tablet: a) Blow-room, b) Card. Dr. Zolten , S. Szalookia) Opening, cleaning and picking b) High Speed Carding and continuous card feeding.

FABRIC MANUFACTURE-II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



1. Importance of sizing, different sizing techniques, sizing materials, preparation of size-paste and application of size on natural fiber yarns and blended yarns. Machine parts, mechanism and controls on sizing machines. Sizing of zero twist filament yarn. Denim sizing. Process control and calculations in sizing, maintenance of machine. New trends in sizing. 2. Introduction to modern automatic winding machines, their salient features. 3. Multiple box motions, conventional and modern dobbies, terry motions, pick-at-will motions. Conventional jacquards, harness-ties, pattern card cutting, repeating and lacing. TERM WORK / PRACTICAL: Practical and term work will be based on the above course conducted during the semester. TEXT / REFERENCES: 1. D. B. Ajgaonkar et al : Sizing: materials, methods, machines. 2. J. B. Smith : Warp sizing technology.

3. 4. 5. 6. 7. 8. 9.

T. Ramsbottom Seydel P. R. Lord and M. H. Mohmad Banerjee M.K.Talukdar .et al Marks and Robbinson K. T. Aswani

THEORY OF MACHINE Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --

: Warp sizing mechanism. : Warp sizing. : Conversion of yarn to fabric. :Weaving Mechanism. :Weaving:Machines,Mechanism,Methods : Principles of Weaving. : Fancy weaving.



1. Basic of Machine, Kinematics of Machines, link or element, Kinematics pair, kinematic Chain, Mechanism, Inversions of Mechanism, Four bar chain, Quadratic Cycle chain, Degree of freedom, Type of joint. 2. Velocity and Acceleration of Mechanism: Relative velocity between two points, Relative velocity equation, slider crank mechanism, Instantaneous center of rotation, Application of Instantaneous center method to determine velocities & acceleration, Klein’s construction for velocity and acceleration of Piston, Coriolis acceleration, static & dynamic force analysis of Mechanism. 3. Force Analysis : Equation of equilibrium, force convention, Equilibrium of a body under parallel forces compound Pendulum, Inertia force and inertia couple, inertia force analysis in a Reciprocating Engine. 4. Cams : Introduction, Types of Cams, Types of followers, Terminology, Motion of follower, Cam profile, Cam dynamics. 5. Flywheel : Introduction, types, turning moment diag. Fluctuation of energy and speed, Co-efficient of fluctuation of energy, coefficient of fluctuation of speed, energy stored in a fly wheel, estimation of fly wheel wheight, calculation of flywheel dimensions. 6. Balancing : Balancing of single revolving Mass, Balancing of several Masses revolving in the same place, static and dynamic balancing, Balancing of reciprocating Mass. 7. Gear Trains : Introduction, Types of gear trains, velocity ratio, simple gear trains, compound gear trains, reverted Gear trains, Epicyclic gear trains, Torque in Epicyclic gear trains, Kinematics of spur gears. 8. Mechanical Vibration : Introduction, Basic concepts of vibration, Definations, Parts of a vibrating system, Types of vibration. Methods of Vibration analysis, Damped vibration, undamped force vibration. Forced vibration. TEXT / REFERENCES: 1. R. S. Khurmi : Theory of machines 2. J. M. Shah : Theory of machines 3. Ballaney : Theory of machines 4. J. Shigley : Kinematics of machinery 5. J. S. Rao : Theory of machines and mechanism 6. Ratan : Theory of machines. 7. V.P.Singh : Theory of machines. Vol. I & II. SECOND SEMESTER OF B. E. III (TEXTILE ENGG)

YARN MANUFACTURE – II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week

Theory 100 Marks Pr/tw/viva 50 Marks Total 150 Marks

Objects of drawing. Constructional details of draw frame. Principles of Perfect Drafting, Irregularity due to drafting and remedies. Recent development. Processing of man-made fibres and blends on

Draw Frame. Assessment of performance of draw frame. Objects of combing. Lap preparation methods, construction and working of combers, control of comber waste. Performance assessment of comber. Recent developments on combers. Objects, construction and working of speed frames. Twisting, winding and building mechanisms. Twists speeds and settings to suit different materials, Drafting systems on speed frame. Recent developments, Assessment of performance of speed frames. Processing of man-made fibres and blends on speed frame. Manufacturing and engineering aspects of the components of above machines. Theory of epicylic gear trains PLC, microprocessors and their applications, calculations of differential gears in textile machines, timer, relays etc. Practical/Term Work: Based on the above course conducted during the semester. TEXT / REFERENCES: 1. Textile institute & Butterworth : Manual of cotton spinning a) vol.-4: part II: Drawing, Combers and Speed frames 2. Gilbert R. Merril : Cotton Combing 3. Textile Institute Manual of Textile technology : Practical guide to combing and drawing 4. Gilbert R. Merril : Cotton Drawing and Roving 5. Dr. Zolten S. Szalooki : Drawing, Combing and Roving 6. T.K. Pattabhiram : Essential elements of Practical cotton spinning 7. W. S. Taggart : Cotton spinning. 8. M. E. I. : Handbook. 9. A. R. Garde : Spinning tablets: a) Drawing, b) Combing, C) Roving 10. SITRA : Maintenance Management in spinning 11. SITRA : Quality control in spinning.

PROCESS CONTROL AND INSTRUMENTATION Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week


1. Basic concept of Automatic control: Open-loop and closed loop control systems, Mathematical modeling of systems. Transfer function models. Control system components like servomotors, synchros, gyroscope, Valves, gears and their modeling. Time response analysis of First-order and second order systems. Transient and Steady-state responses. Time response specifications. Concept of stability and R-H criterion. Examples of Automatic control application for Textile machinery. 2. Instrumentation: Transducer for measuring humidity, pressure, flow, temperature, force, displacement, etc. Basic digital logic circuits like gates, flip-flops, registers, counters, etc. Introduction to modern microprocessor based Data Acquisition systems. Fundaments of PLC based instrumentation and distributed control systems. 3. Introduction to Robotics: Basic concepts related to Industrial robots. Flexible Automation versus hard Automation. Classification of Robotic systems based on an geometry and applications. Basic concepts of Kinematics, Dynamics and Trajectory planning. TEXT/REFRENCES: 1. Rangan, Sharma and Mani : Instrumentation. 2. M. Gopal : Control systems-principles and Design. 3. A. R. Garde : Process control in spinning. 4. Yoramkoren : Robotics for Engineering. 5. Groover, Weiss, Nagel ordery : Industrial Robotics. TEXTILE TESTING Lecture Tutorials Practicals



Importance of textile testing and quality control. Sampling and its techniques. . Humidity and moisture in textiles. Trash and its measurement. Importance and measurement techniques of fibre length, fibre fineness, fibre strength, maturity. Identification of fibres. Testing of manmade fibres. Yarn properties:

Count and its measurement, Twist and its measurement, Strength and its measurement, Evenness and its measurement Fabric properties: Dimensions, air permeability, stiffness, crease recovery, drape, serviceability, wear and abrasion, bursting, pilling, fabric tensile strength, tearing strength. Dimension stability, colour fastness of fabric to various agencies, water repellency and water proof test, flammability test, fibre blend composition %age in fabric. TEXT / REFERENCES: 1. J. E. Booth : Principle of textile testing 2. Grover and Hambay : Hand book of textile testing and quality control 3. Angpappan, R. Gopal Krishna, B.K. Keshwan : Physical testing vol. I & II 4. W.S. Morton and Hearle : Physical properties textile fibres . 5. M.E.Ansus and W.W.Adams : Physical Textile Testing 6. Graner : Textile laboratory manuals 7. B.S. Handbook No.11 : Methods of test for textile 8. P.A. Koch and C.J. Hooper : Microscopic and chemical testing of textile 9. M.V.S. Rao and A.B. Telele : Guide in crimping/ texturising 10. J. Lunena and W. Albert : Non woven bonded fabric 11. A.S.T.M. standards for textile material 12. I.S.I. handbook of textile testing MACHINE DESIGN Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week


Mechanical engineering design : General design process, Design considerations in textile machinery, Functions and specifications, Force and stress analysis, Static and dynamic loads, Material, its selections criteria, Is designation of materials, Strength rigidity, Stresses, static and dynamic failure theories, safety factor, stress concentration. Preferred sizes and standardization. Manufacturing and assembly, Fits and Tolerances. Documents and communications of design. Design of Textile Machinery elements : Drives and components : Belts drives, spur and helical gear pair, Shafts, Spindles, Keys and couplings, Levers and Cams. Springs : Helical compression, tension and torsion spring. Fasteners : Threaded fasteners, rivets, welding and its applications. Bearing : Rolling elements bearings, sliding contact bearings and lubrication. TEXT / REFRENCES: 1. Pandya N.C. & shah N.C. Machine design Charotar Publishing. 2. Norton Robert L Machine Design, an Integrated Approach (2nd Edition) Pearson Education Asia. INDUSTRIAL ENGINEERING & OPERATION RESEARCH Lecture 3 Hrs/Week Theory Tutorials 1 Hrs/Week Pr/tw/viva Practicals -Total


Linear programming techniques: Operation research and decision making, types of mathematical models and constructing the model, roll of computers in operations research, formulation of linear programming problem, applications and limitations, simplex method (analytical & graphical) Distribution Methods: Vogel’s approximation methods, modified distribution method, optimization models, unbalance and degeneracy in transportation model. Assignment Models: Hungerian algorithm, traveling sales man problem, routing problems, processing ‘n’ jobs through two machines and three machines, processing two jobs through ‘m’ machines. Network Analysis:

PERT and CPM. Total slack, free slack, probability of achieving completion date, cost analysis, updating resource smoothing – roll of computer in network analysis. Inventory Method: Variable in inventory problem, inventory problem, inventory models with panelty, stoarage and quantity discount, safety stock, inventory models with probability, demand, multi item deterministic model. Queuing Theory: Poisson arrivals and exponential service times, waiting time and idle time cost, single channel multi channel problem, Monte Carlo technique applied to queuing problems, Poisson arrivals and service time. Decision Theory Game: Examples of the application of theory of games 2 x M and M x 2 problems, graphic dominance and linear programming method for different problems, decision trees. Replacement Model: Replacement of item that deteriorate, gradually, fail suddenly. Group replacement policy. Concept of system reliability. TEXT / REFRENCES: 1. Taha, H.A., “Operation Research”, Mc Millan Publicaiton Co. Inc, New York. 2. Hiller, F.S., Liberman, G.J., “Introduction to Operation Research 2 nd Edition”, Holden-Day Inc, San Francisco, 1974. 3. Rao S. S., “Optimization – Theory and applications”, Wiley Eastern, New Delhi, 1978. 4. Rao K.V., “Management Science”, Mc Graw Hill Singapore, 1986. 5. Sesieni, M.A., Yaspan, A. and Friedman, L., “Operation Research: Methods and Problems”, John Wiley and Sons, New York 1959. 6. Wagner, N.B., “Principles of Operation Research”, NJ Prentice hall, 1975. 7. Lewis, C.D., “Scientific Inventory control”, Butterworths, London, 1970. 8. Love, S., “Inventory Control”, Mc Graw Hill, 1979. 9. Naddor, E., “Inventory Systems”, Wiley New York, 1996. FIRST SEMESTER OF B. E. IV (TEXTILE ENGG) WEAVING III Lecture Tutorials Practicals




Auto looms : Introduction to automatic shuttle looms, various weft feelers, cop & shuttle changing mechanisms, Positive let off motions – Principle & action. Method of warp tensioning, various let off motions (based on method of warp tensioning & beam driving ), Warp stop motions, Weaving of filament yarns. Shuttleless weaving machines : Projectile – Picking cycle, Preparation for picking, shifting of projectile & transfer on conveyor, Torsion bar picking mechanism, Beat up mechanism, Tucking in of weft, Timing diagram, Details of projectile. Air jet – Nozzles ( main, relay, stretch etc ) , position & setting of relay nozzle, Profile reed. Water jet – Working of picking mechanism. Rapier – Rigid & flexible rapier weaving machine, Rapier drive, Rapier head design and picking cycle. PRACTICALS/TERM WORK : Based on the above topics covered in the theory . TEXT / REFERENCE : 1. Marks and Robinson : Principle of weaving 2. V. Duxdury and G.R.Wary : Modern developments in weaving machinery. 3. O.Talavasek and V.Svaty : Shuttleless weaving machines. 4. P.R.Lord and M.H.Mohmed : Weaving conversion of yarn to fabric. 5. BTRA : Loom shed 6. M.K. Talukdar : Weaving-Mechanism, Machine & Management YARN MANNUFACTURE - III Lecture 3 Hrs/Week

Theory

100 Marks

Tutorials Practicals

1 Hrs/Week 4 Hrs/Week

Pr/tw/viva Total

50 Marks 150 Marks

Objects of Ring frames. Constructional details of Ring frame. Recent developments. Manufacturing and engineering aspects of components of Ring frames. Production of doubled, folded and fancy yarns. Concept of productivity and its controls. Modern yarn production. Detailed study of rotor spinning. Basic principles of other unconventional spinning systems. Comparison of properties of yarn produced on different systems. Assessment of performance, Maintenance schedule, work allocation, production balance, calculations etc. of Ring and Rotor spinning systems and doubling process. PRACTICALS/ TERM WORK : Practicals and term work will be based on the above course conducted during the semester. TEXT/REFERENCE : 1. V.Butterworth series : Manual of cotton spinning 2. A.R.Garde & T.A. Subramaniam : Process control in spinning 3. Gilbert R.Merrill : Cotton Spinning 4. W.Klein : A Practical Guide to Ring Spinning (Textile Institute vol - I & IV series ) 5. K.R. Salhotra : Spinning of Man Made and blends on cotton spinning system 6. T.K.Pattabhiram : Essential Elements of practical cotton spinning. 7. B.C.Goswami, J.G.Martindale and F.L.Scardioo : Textile Yarns, Wiley international 8. Eric Oxtoby : Spun yarn Technology 9. R. Neild : Rotor Spinning 10. Anant s. haranhalli : Practical open end spinning 11. Text. Asso. of India : Spinning Tablets -Ring frame, doubling 12. M.E.I. : Hand Book ENGINEERING OF TEXTILE STRUCTURE Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --

Theory 100 Marks Pr/tw/viva -Total 100 Marks

Yarn diameter, measurements, Schwarz's correction factors, twist angle, optimum twist or helix angle for cotton yarns, twist for filament yarns, specific volume of yarns, twist multiplier, relation between twist factor, specific volume and helix angle, contraction and retraction in filament yarn due to twist, expressions. Stress strain curves, young's modulus, tenacity, RKM etc. Ideal yarn geometry and model, mechanics of yarn structure, tensile behaviour of continuous filament yarns, Platt's and Hearl's simple equations, to predict modulus, strain etc., under low strain. Hearl's large strain model (no derivation ) and various parameters. Idea about Treolar and Riding energy method (no derivation). Tensile behavior of staple yarn, traditional and modified qualitative approach, factors affecting it . Migration, factors controlling and effect of Migration in yarn structure and properties, several parameters. Brief idea about structure characteristics of O.E. and Ring spun yarns, Pierce's basic model of fabric geometry and its application in special cases, modifications in basic model. Yarn crimp in fabric, its measurement, effect of finishing processes on yarn crimp in fabric, crimp interchange. Cover and cover factors – different approaches, conditions for equal coverage in redesigning of fabric. Permeability and porosity of fabric. Fabric weight and weight factor. Theories of cloth setting. Mechanical behavior of fabric under tensile and compressive load. Shear and Drape behavior of fabric ( Theory only ) Effect of fabric structure on mechanical properties of fabric. Fundamentals of warp and weft knitted structures, their simple models. Numerical problems based on above topics , wherever possible. TEXT / REFERENCES: 1 J.W. Hearle, P.Grossberg and S.Backer : Structural Mechanics of Fibres, Yarn and fabrics. 2 B.C. Goswami, J.G.Martindale and F.L.Scardioo : Textile Yarns, Wiley international 3 J.E. Booth : Textile Mathematics – Vol III.

4

A.T.C. Robinson, R. Marks.

: Woven Cloth Construction

MAN-MADE FIBRE TECHNOLOGY-I Introduction. Outlines of the manufacturing process of important manmade fibres like Nylon, Polyester, Polypropylene, Acrylics, Rayon, Spandex etc., properties and end uses. Polymer characterization. Detail study of melt spinning process including polymerization, chip forming, extrusion, etc. Spin finishes. Post-spinning operations like drawing tow to top conversion, staple cutting, twisting etc. Outline of Industrial fabrics, non- woven manufacture and Geotextiles, their properties and end uses. TEXT/REFERENCE: 1. J. Lunenschloss and W.Albercht : Non Woven bonded fabrics 2. V.K.Kothari & V.B.Gupta : Manufactured Fibre Technology 3. B.L.Deopura : Manmadefibres, NCUTE pilot programme. 4. Ashwini Agrawal : Solution spun fibres, NCUTE pilot programme. 5. A.A. Vaidya : Production of synthetic fibres 6. R.W.Moncrieff : Manmade Fibres 7. B.C.Goswami, J.G.Martindale and F.L.Scardioo (Wiley international) : Textile Yarns 8. G. R. Wary : Modern Yarn Production. 9. Journals and periodicals in the selected topics. THEORY AND DESIGN OF TEXTILE MACHINES Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week


• • • • •

Principles governing design of Textile machines. Circular and non-circular movement. Transmission of motion. Impulsive forces. Torque. Elastic behaviour of machine parts, design of machine parts. Theory of vibration and its practical aspects on Textile machines. Fluid Mechanics & its application in Textile Machines - Fluid flow, pressure in fluids, coefficient of viscosity, laminar flow, viscosity and textiles, absorbency of textile materials. • Mechanics of Spinning machines - feed regulating mechanism, doffing systems, builder mechanisms, etc. • Design aspects of weaving preparatory and knitting machines. • Mechanics of basic weaving operations - Kinematics of sley and heald motion. Theoretical analysis of conventional / Non-conventional picking and checking mechanism. Warp & Weft tension and their control. • Numerical / problems based on the above topics. TERM WORK : Design and drawing of various mechanism/components based on the above topics. Experimental work based on the above topics. TEXT / REFERENCES : 1. 2. 3. 4. 5.

W.A.Hanton (The Textile Institute) J.E.Booth K. Slater P.R.Lord & M.H.Mohamed R.Marks & Robbinson

: Mechanics of Textile Machinery : Textile Mathematics, Part I, II, III. : Textile Mechanics : Conversion of yarn to fabric. : Principles of Weaving.

SECOND SEMESTER OF B. E. IV (TEXTILE ENGG) TEXTILE PRODUCTION MANAGEMENT AND COSTING Lecture 3 Hrs/Week Theory

100 Marks

Tutorials Practicals


Pr/tw/viva Total

50 Marks 150 Marks

Spin plans ( hank and draft schedule) for various counts and yarns, blends. Production rates, waste, efficiency level of modern machines. Estimation of number of machines for yarn manufacturing, , yarn preparatory and fabric manufacturing departments. Cloth setting rules and estimation of quantity of yarn requirement . Export norms. Different categories of Labour required in textile production process, their training and work load analysis . Estimation of Labour requirement and its norms. System of wage payment, Retrenchment, dismissal, suspension of workers, lay off and closure of industry. Reason for industrial sickness. Selection of site for textile industry, principles of machinery lay outs and flow plans. Different methods of material handling. Types of buildings used and their constructional details. Humidification and AirConditioning. Environmental and health hazards in textile industry. Elements of costs methods of costing. Application of cost overheads to production cost centers, calculation of direct and indirect cost for yarn and fabric conversion processes. Cost control in textile industry. Theory and practice of marginal costing, break even charts. Financial resources to start a new textile industry, Planning of working capital, cash flow estimates and evaluation techniques financial statement ratio analysis. Depreciation and different systems of providing depreciation. Inventory management. Organization of large and small scale textile units. Numerical problems based on the above topics, wherever possible. TERM WORK / PRACTICAL : Planning , preparing and drawing of lay-outs for yarn to fabric conversion processes with spin plans, estimations of number of machines and cost. Line sketches of manufactured fiber / yarn producing line , machine lay outs of knitting and garment manufacturing. TEXT / REFERENCES : 1. Dr. M.K.Talukdar et. Al. : Weaving – Mechanism, machines and management. 2. P.V. Bhave & V. Srinivasan : Cost accounting in textile mills. 3. M.Y.Khan & P.K.Jain : Financial management, Text and problems 4. Sprigel : Principles of Industrial management 5. K.D.Saksena : Dynamics of India’s Textile Economy. MAN-MADE FIBRE TECHNOLOGY-II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week


Importance of texturising. Methods of texturising. Basic principles. Physics of texturising. False twist texturising. Developments of false twist texturising machines. Hardwares used in false twist texturising. Structural geometry of textured yarn. Stuffer box texturising, edge crimping, gear crimping, knit-de-knit process. Texturising of non-thermoplastic yarns- Airjet and chemical texturising. Characterization of textured yarns. Testing and quality control. Recent developments, detailed study of the blended yarn manufactured on cotton system of spinning. Problems of blending. Blended yarn properties and fabric performance. TERM WORK / PRACTICAL: Based on the above syllabus conducted during the semester. TEXT / REFERENCE: 1. B. C. Goswami, J.G. Martindale and Scardino : Textile Yarns 2. G. R. Wray : Modern Yarn Production 3. Dr. M. V. S. Rao And A. B. Talele : A Guide To Crimping/ Textured Technology 4. Berkeley L. Hathorne : Woven Stretch and Textured Fabrics 5. K. R. Salhotra : Spinning Of Manmade And Blends on Cotton System GARMENT TECHNOLOGY Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --



Pattern making terminologies, Anthropometrics, Size charts, ranges and grading. Garment machinery, equipments, attachments, and their specifications. Cutting including spreading, marker planning and cutting, stitch classification, all machines of lock stitch and chain stitch. Seam stitch interplay in strength, elasticity and slippage, choice of threads and needles, causes of stitch damage and thread failure. Basic principles and comparison of machineries for a variety of sewing operations. Chain, lock, blind, multi-needle and multitask stitching machines. Special purpose attachments. Application of stitch and seam types in garment construction. Tailarability and Sewability of material, quality control. KNITTING Lecture Tutorials Practicals

3 Hrs/Week 1 Hrs/Week --



Introduction, Knitting needles. Weft Knitting : Basic weft knit structures, basic weft knitting machine, float & tuck stitches and their knitting, loop transfer stitches, racked rib structures, cable stitch, designing of weft knit structures. Production & fabric calculation, Engineering approach to knitting calculations. Warp Knitting : Classification of warp knitting machine, Tricot & Raschel Knitting machine, warp knit structures and their representation: Single bar fabric, Two full set guide bar structures. TEXT/REFERENCES: 1. David J. Spencer : : Knitting Technology 2. D.B. Ajgaonker : : Knitting Technology TEXTILE CHEMISTRY PROCESSING MACHINES Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week



Introduction and working principle of preparatory machineries in volved in singeing, Desizing, Bleaching and Mercersing, Introduction to working principle of dyeing and printing machineries. Brief introduction and working of various machineries employed for various cloth finishing processes such as stentering, damping, calandering, heat setting, sanforizing and resin finishing. Polymeriser and its technical aspects and coating technique. PRACTICAL/TERM WORK: Practical and term work will based on the above topics covered during the semester. Drawing sheets of various machines. VIVA EXAMIONATION: Oral examination based on the TERM WORK TECHNICAL TEXTILE ( Elective ) Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals --



Non-woven : - Introduction to non-wovens, manufacturing processes of non-wovens : dry laid process, wet laid process. Various bonding techniques:- mechanical bonding, adhesive and thermal bonding, stitch bonding, etc., Raw materials and bonding agents used in nonwovens. Testing of nonwovens. Industrial Textiles : Introduction, Principles of Industrial Textiles & Classification, Raw materials : Fibres, yarns, Fabrics etc.. Coating & Laminating processes. Textile composites. Geo-textiles, Medical Textiles, Filtration Textiles, Military and Defense Textiles, safety and protective Textiles, transportation Textiles and other specialty Textiles. TEXT / REFERENCES : 1. Francis M. Buresh : Non-Woven Fabrics 2. M. S. Casper : Non-Woven Textiles 3. J. Lunenschloss & W. Albrecht : Non-Woven Bonded Fabrics 4. Sabit Adanur : : Wellington Sears hand book of Industrial Textiles. 5. Dr. V.K.Kothari : Textile Fibres : Development & Innovations. 6. M.G.Kulkarni : Textile Manufacturing. ADVANCE FABRIC STRUCTURE ( Elective )

Colour and weave effect. Figuring with extra threads. Warp & weft pile structures. Gauze & leno structures, Jacquard designing. Backed, double & triple cloth. Dobby & jacquard design software. TEXT / REFERENCE: 1. Z. J. Grosiscki 2. Z. J. Grosiscki

: Watson’s Textile Design And Colour : Watson’s Advanced Textile Design

NANOTECHNOLOGY IN TEXTILE( Elective ) LECT + TU: 3+1 PAPER (3 HRS): 100 MARKS TOTAL: 4 TOTAL : 100 MARKS Basic idea of Nano-technology – Introduction to Nano-technology in textiles- Nano-fibres development- Nano-touch fabric technology, like, water repellent, wrinkle resistance, breathable, stain resistance, medical, etc. – Nano-textile coatings- Nano and smart textiles – Application of nano technology for High performance textiles. Ref:K.Eric.Drexier: Engines of Creations: The Coming Era of Nanotechnology, Anchor Reprient Edition, 1987. David R. Forrest: The future impact of molecular nanotechnology on textile technology and on textile industries, industrial fabric & equipment exposition : Charlotte, N.C.U.S.A.(Technical notes), Oct. 1995. Nanotechnology at BASF: A Great future for tiny particles, Oct. 2002. Proceedings of seminar on nanotechnology: opportunities in textiles, Indian Institute of Technology, New Delhi, Sept. 2005.

*************

SCHEME OF TEACHING FOR BACHELOR IN TEXTILE TECHNOLOGY PRESENT

L

P

T

BE-I (FS) App. Physics-I App.Maths-I Engg. Drg. Mat. Sci. FCE Workshop

4 4 3 4 4 -

3 4 3 3

7 4 7 4 7 3

T

32 BE-I (SS) App. Physics-II Maths&Stat Meth. Intro. to Textile Textile Fibre Mech. Engg. Intro. to comp. & N.A.

4 4 4 4 4 4

3 2 2 2

7 6 6 4 4 6 33

BE-II (FS) App. Mechanics F.S.T.P. TC-I P.O.Y.M. Chemistry

4 4 4 4 4

4 4 4

8 4 8 4 8 32

BE-II (SS) Y.P-I App. Chemistry Spg-I Weaving-I

4 4 4 4

4 4 4 4

8 8 8 8 32

BE-III (FS) Elect Engg Funds. Textile Testing-I FS Text. M/c Cont & QM Mgt of Text unit.

4 4 4 4 4

4 4 4 -

8 8 8 4 4 32

BE-III (SS) Spg-II Wvg-II Text. Testing-II Textile Chemistry-II Op. Res.& Inv. Control

4 4 4 4 4

4 4 4 2 -

8 8 8 6 4 34

BE-IV (FS) E.T.S. Y.P.-II Spg-III Wvg-III MMFT-I

4 4 4 4 4

4 4 4 -

4 8 8 8 4 32

BE-IV (SS) Knitting G.M.T. Text Prod Mgt & Cost MMFT – II PCMYP Elective [(i) Adv FS, (ii) Technical Textile, (iii) Nano technology in Textiles]

4 4 4 4 4 4

4 2 2 -

4 4 8 6 6 4 32

FIRST SEMESTER of B. E. I (TEXTILE TECH) APPLIED PHYSICS-I APH 101 Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks Practicals 3 Hrs/Week Marks

Theory

100 Marks Pr/tw/viva 50 Total

150

11. Interference : Types of interference. Fresnel’s bi-prism, white light fringes, determination of thickness of sheet, interference in thin films (conditions for normal incidence), necessity of extended source, Newton’s rings. Michelson interference & its uses. Types of fringes. Antireflection coating, interference filters. 12. Diffraction : Fraunhoffer diffraction at a circular aperture, plane diffraction grating, formation of multiple spectra and determination of wavelength, dispersive power of grating, resolving power of optical instruments, meaning of resolving power. Rayleigh’s criterion of resolution. Resolving poer of grating, prism, telescope and microscope. 13. Polarization : Geometry of calcite crystal. Double refraction, Nicol’s prism. Huygene’s theory of double refraction quarter wave plate. Elliptically and circularly polarized light and production of circularly polarized light. Optical activity. Specific rotation. Fresnel’s theory of optical rotation. Laurent’s half-shade polarimeter. Photo elasticity. 14. Lasers : Spontaneous and stimulated emission, population inversion, structure of laser, properties of laser light (monochromatic, low divergence, coherence). Types of lasers with specification, applications. 15. Ultrasonic : Ultrasonic waves, production and detection, properties and applications of ultrasonic waves. 16. Electricity and magnetism : Magnetic forces on a current, torque on a current loop, hall effect and hall devices, circulating charges, cyclotron and mass spectrometer. Faraday’s law of induction, Lenz’s law. Induction- a quantitative study, time varying magnetic fields. Betatron, Para magnetism, diamagnetism, ferromagnetism, nuclear magnetism & NMR. 17. Thermoelectricity : Seeback effect, variation of thermo-emf with temperature, thermoelectric series, measurement of thermo-emf, law of intermediate metals. Law of intermediate temperatures. Peltier effect. Thomson effect. Total emf in a thermocouple, thermoelectric power, applications of thermoelectric effect. 18. Modern Physics : Artificial radioactivity, artificial transmutation, nuclear reactions and q-value. Types of nuclear reactions, structure of nucleus, nuclear constituents, proton-neutron theory, general properties of the nucleus. Atomic mass unit, mass Defect and Packing fraction. Nuclear binding energy, nuclear forces, nuclear models. 19. Nuclear fission : Theory of nuclear fission, energy released in nuclear fission, the chain reaction, thermonuclear reactions, atom bomb, stellar energy, nuclear reactors. 20. X-rays : Discovery & production of x-rays, origin and properties of x-rays, diffraction of x-rays, Bragg’s law, x-ray spectrometer and crystal structure, powder method, applications of x-rays. APPLIED MATHEMATICS-I AMA 112 Lecture

3 Hours/Week

Theory Paper

100 Marks

Tutorials

1 Hour/Week

Total

100 Marks

UNIT - 1 CALCULUS: Reorientation. Functions of one variable. Applications of Derivatives-curvature. Successive Differentiation Partial Derivatives, Leibnitz rule for the nth order derivative of a function, Techniques of Partial derivatives.

UNIT - 2 INFINITE SERIES: Sequences and their convergence, convergence and divergence of infinite series, Geometric series, P-series, A necessary condition for convergence, Comparison test, Ratio test, Absolute convergence and conditional convergence of alternating series. Expansion of functions : Macluarins & Taylor's expansion with remainder form. Indeterminate forms, L'Hopspital's rule. UNIT - 3 COMPLEX ALGEBRA : Complex numbers "& their geometrical representation, Complex numbers in polar form, Demoivre's theorem and its applications. Exponential, Logarithmic,Trigonometric & Hyperbolic functions. UNIT - 4 DIFFERENTIAL EQUATIONS: Reorientation. Modeling of Engineering systems pertaining to first order differential equations, Exact differential equations, Integrating factors, Unified approach to first order ordinary differential equations, equations of first order and higher degree. UNIT - 5 Linear differential equations of higher order with constant coefficients and with variable Coefficients, models of higher order differential equations. UNIT - 6 Method of variation of parameters and simultaneous linear differential equations. Method of solution in series, Bessel and Legendre's equations. Properties of Bessel functions, introduction to Legendre polynomials. TEXT/REFERENCES 1. Advanced Engineering Mathematics by Erwin Kreyszig.(6th edition) Johnwilley & sons. 2. Text Book of Engineering Mathematics - Dhanpat Rai & Sons,Delhi. by Srivastava -Dhavan 3. Differential Calculus by Shantinarayan S. Chand & Co. New Delhi. 4. Advanced Calcus by Willfred Kaplan-Addison Weseley Publ.company,Inc. 5. Advanced Engineering Mathematics-C.R.wylie,Mc.Graw-Hill,Inc. ENGINEERING DRAWING ME-01 Lecture 2 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



7. 8. 9. 10.

Plane Geometry, types of lines, lettering, geometrical construction, tracing or curves. Projection of points, lines and projection on auxiliary planes. Orthographic projection and Isometric drawing of machine parts and sections. Threads, bolts, studs, nuts set screws split pins, keys, rivets, shafts, pulleys, foundation bolts, standard sections. 11. Cotter joints, knuckle joint, riveted joints, welded joints and couplings. 12. Sketches of above parts. ELEMENTS OF MATERIAL SCIENCE MET 1101 Lecture 3 Hrs / Week Tutorial 1 Hr / Week

1.

Theory Total

100 Marks 100 Marks

Engineering requirements of materials: Criteria for selection of materials for engineering applications on the basis of mechanical properties.

2.

Crystallography: Crystal structure, space lattice, unit cell, crystal systems atomic packing factor, co-ordination numbers, crystal structure for metallic elements. Crystal directions and planes, Miller indices, stacking sequence in HCP and FCC. 3. Metallic Materials: Phase, diagram, Gibbs phase rule, Binary isomorphous phase diagram, purely eutectic binary phase diagram, partially eutectic binary phase diagram, solid solution-Hume Rothery Rules. 4. Imperfections: Point defects, Line defects and Area defects-grain boundary, till boundary and twin boundary grain, grain size number. 5. Cold working and annealing: Effect of grain size, alloying element and heat treatment on properties of material. Failure of metals-Ductile, Brittle, Ductile-to-Brittle transition, creep failure and fatigue failure. 6. Ceramic and Polymeric material: Structure, properties and applications of above materials. Glasses and refractories. Types of polymerization like condensation and Co-polymerization. Ageing aulcanization, cross-linking and branching. 7. Corrosion: Types of corrosion-Dry and Wet corrosion. Electro chemical and oxidation (Chemical) corrosion. E m f series and Galvanic series, stress concentration and compositional cells, corrosion prevention-Galvanic potential and coatings. 8. Classification of Insulator, Semi conductor and conductor on the basis of Band theory, ferromagnetism, Hard and Soft magnetic material. 9. Composite materials (PMC, CMC, MMC) and new developments Metallic glasses, super conducting material and optic fibre. * Numericals related to above topics: Texts/References: Elements of material science and engineering – L H Van Vlack, Addison-Wesley Publising Company An Introduction to material science and engineering – William D. Callister Material Science and Engineering – V Raghavan

FUNDAMENTALS OF CIVIL ENGINEERING C 1101 Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Pr/Drg 3 Hrs/Week


(I) Theory : (A) ENGINERING MATERIALS : 1. (a) Bricks: Classification of bricks, factors affecting quality of bricks, characteristics of good bricks As per ISI specifications - Field bests of bricks, special forms of bricks, field test for brick, Bricks for specific purposes like refractory bricks. (b) Stones: Types and classification of stones, characteristics of good stones, choice and uses of stones, Dressing of stones. 2. (a) Lime : Classification of lime, characteristics of good lime, slaking process of lime, I.S. specification of lime (b) Cement : Basic ingredient of ordinary cement - Physical properties of cement, Field examinations of cement, storing of cement, varieties of cement and its uses, I.S. specification of ordinary cement. 3. Mortar and concrete : Specifications of ingredients for mortar and concrete, classification of mortar and concrete, selection of mortar and its uses, Precautions in using mortar, Production and quality control of concrete, Physical properties of concrete. 4. (a) Timber : Characteristics of good timber, Impotence of seasoning of timber, Requirements of good preservations, Market forms of timber. (b) Plastics, Steel & Glass : Basic types of plastics - physical & mechanical properties of plastics, uses of plastics in various engineering field, uses of steel, properties of mild steel, market forms of steel, composition of glass, properties and uses of glass - special varieties of glass. (B)SURVEYING :

5. Introduction : Principle, role of survey, classification, basic instruments in linear and angular measurements, chain, tape, compass, uses, field work and notes, survey drawings, conventional symbols, scale. 6. Leveling : Temporary adjustments, field work, computation of levels, arithmetic checks, profiles and contours from level data, area measurements by field measurements from drawings, sue of planimeter. (C) BUILDING CONSTRUCTION : 7. Types of constructions: Typical details of load bearing and framed structures, brief discussion and illustrations by sketches of typical important building components, suck as light and medium type foundations, lintel, flooring, roofing, different types of doors, typical finishing items, like plastering and painting. (D) INTRODUCTORY ENVIRONMENTAL ENGINEERING : 8. Terminology: Air, water and land pollution, introduction to various type of pollution and remedial measures for control, environmental protection and legislation, water & waste water quality criteria, disposal of wastes. (II) Term work : Termwork will consist of practicals, drawings and sketches based on the above topics of the subject.

WORKSHOP ME02 Practicals

3 hours/week

Pr/tw/viva: Total :

50 Marks 50 Marks

Carpentry – Name, use and setting of hand tools, construction of halved single mortise and tenon joints, dovetail joints, bridle joint, oblige mortise and tenon joint and rafter joint Smithy – Tools used for preparing simple jobs in hand forging Termwork – Each candidate shall submit to the examiners, the term work as mentioned below which will be allotted marks up to a maximum of 50 with a certificate from the dean, Faculty of Tech. & Engg. that it was completed by him in a satisfactory manner within the walls of the college Carpentry – At least 4 different joints Smithy – At least 4 different jobs When once a set of job has been submitted for the examination unless new jobs are presented. A candidate whose marks in term work are thus carried over shall be eligible for a class.

SECOND SEMESTER of B. E. I (TEXTILE TECH) APPLIED PHYSICS II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 3 Hrs/Week



1. FIBRE:(1L) Natural and manmade fibres, growth of fibre and effect of temperature, pressure and other parameters on fibre. 2. EQUILIBRUM ABSORPTION OF WATER: (8L) Humidity and relative humidity, dew point, measurement of humidity and hygrometers, regain and moisture content, measurement of regain, relation between regain and relative humidity, influence of temperature and stress. 3. COLOR SCIENCE: (5L) Beer’s Law, Colorimetry, additive color mixture, three color mixture, spectrophotometry, dominant wavelength and purity, Subtractive method of color mixing, the color of paints & inks, Subtractive primaries. 4. OPTICAL INSTRUMENTS AND THEIR USE IN TEXTILE: (8L) Compound microscope, oil immersion microscope, electron microscope and their use in studying surface and structure of fibre, polarization microscope, spectrophotometer and interpretation of IR, visible and UV spectra. 5. FIBRE FRICTION: (9L) Technological effects, measurement of fibre friction: Bowden and Leben’s apparatus, Guthrie and Oliver’s apparatus, static and dynamic capstan method, Buckle and Pollitt’s

Technique and measurement of inter-fibre friction, static and kinetic friction and state of the surface, General theory of friction and application to fibre, theory of directional frictional effect. And lubricated condition. 6. TENSILE PROPERTIES: (9L) Stress, specific stress, tensile stress, strength, work of rupture, elongation at break, initial modulus, work factor, yield point, and crimp, experimental techniques to study elasticity, effect of moisture, temperature and light in the study of elastic properties. The effect of variability, Pierce’s, Specers-Smith’s and weak-link theories, Elastic recovery: Experimental methods, influence of test conditions on recovery and simple recovery models. 7. PHOTO ELECTRIC EFFECT: (5L) Einstein’s equation, Photomultipliar tube, semiconductor, pnJunction diode, LED, Photoconductive cell, Photovoltric cell. TEXT/REFERENCES: 4. Physical properties of Textile fibres by W.E. Morton and J.W.S. Hearl 5. Optics by F.W. Sears 6. Engg. Physics by Gaur and Gupta. MATHEMATICS & STATISTICAL METHODS AMA 122 Lecture Tutorials Practicals




UNIT 1 PARTIAL DIFFERENTIATION: Function of two variables. Limits, continuity and partial derivatives. Chain Rule. Euler’s theorem. Implicit function. Differentiation. Applications of Partial derivatives. Tangent planes and normal lines to above surfaces (by calculus method). UNIT 2 VECTOR CALCULUS: Scalar and vector fields. Gradient of a scalar function. Directional derivatives. Divergence and Curl of a vector field and their applications. Line Integrals, length of a arc curves, discussion on the curve helix. UNIT 3 Multiple Integration: Double Integral, Change of order of Integration, Changing from Cartesian to Polar Co-ordinates, Triple Integration, Applications of Double and Triple Integration. UNIT 4 Preparation of frequency distribution, presentation of frequency distribution into graphs (histogram, frequency curve and frequency polygon, ogive curve). Measures of central tendency, measure of dispersion, skewness. Curve fitting (least square approximation) Correlation and regression analysis. UNIT 5 Probability theory, Discrete Probability Distribution, Distribution – Binomial, Poisson and Continuous probability distribution. UNIT 6 General idea of Sampling, methods to draw a random sample, Confidence interval for mean General idea of testing of hypothesis, acceptance sampling plan by attributes (single), large and small sample tests (mean, variance and proportion). Control Chart. TEXT/REFERENCES: 8. Advanced Engineering Mathematics by Erwin Kreyszig.(6th edition) Johnwilley & sons. 9. Text Book of Engineering Mathematics - Dhanpat Rai & Sons, Delhi. By Srivastava -Dhavan 10. Differential Calculus by Shantinarayan S. Chand & Co. New Delhi. 11. Advanced Calculus by Wilfred Kaplan-Addison Wesley Pub. company, Inc. 12. Advanced Engineering Mathematics-C.R. Wyllie, McGraw-Hill, Inc. 13. Richard A, Probability & Statistics for Engineers, Johason, Phi, 1996 14. Sheldon P. Gordon & Florence S. Gordon: Contemporary Statistics, McGraw- Hill, Inc.1994 INTRODUCTION TO TEXTILES Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week



Classification of fabrics based on methods of manufacture, type of finish, raw material used, end uses, etc. Concept of fabric manufacture: Weaving, knitting, non-woven and lacing. Physical properties of woven fabrics, knitted fabrics, their uses and comparison with woven fabrics. Concept of fabric designing, fashion, market trend, etc. Concept of yarn preparation. Classification of yarns: Physical properties of yarns and fibres. Concept of yarn manufacture - concept of spinnability,

different systems of staple yarn manufacture. Chemical processing: Importance of chemical processing. Concept of different processes. PRACTICALS: Based on the above syllabus conducted during the semester. TEXT/REFERENCES: 1. Corbman : Fibre to Fabric 2. H.V.S. Murthy : Textile Fibres 3. B. C. Goswami : Textile Yarns 4. Eric Oxtoby : Spun yarn technology TEXTILE FIBRES Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

General classification. Structure, growth, geographical distribution, cultivation, grading, properties, end uses of important natural fibres. Cotton ginning. Study of physical properties and uses of manmade fibres. Study of methods used in production of man-made fibres by wet spinning, solvent spinning and melt spinning. INTRODUCTION TO COMPUTER AND NUMERICAL ANALYSIS AMA 221 Lecture 3 Hrs/Week Theory Tutorials 1 Hrs/Week Pr/tw/viva Practicals 2 Hrs/Week Total


[A] C Programming: • Algorithms, effective procedures in problem solving, flowcharts, pseudo-code • C Preliminaries: Data types, Constants, variables, Type specification statements, operators and expressions Library Functions, Simple C programmes. • Control Structures: Importance and types of control structures, Structured programming. IF--ELSE, While, Do ---While, For, Switch structure, GO TO continue and Break statement. [B] NUMERICAL ANALYSIS AND APPLICATION PROGRAMMING • Finite differences, Newton’s interpolation formulae, Lagrange's formula • Numerical integration, Trapezoidal Rule, Simpson's rule. • Solution of equation of one variable: Bisection method, Regula-falsi, Newton-raphson Method. • Introduction of Matrix Algebra, Rank of Matrix, Consistency of system of equations • Solution of systems of linear equations: Gauss-Seidel, Jacobi, Gauss-elimination methods. • Numerical solution of differential equation: Euler’s Method, Modified Euler Method, Runge-Kutta method • Finite difference methods for ordinary differential equations. TEXT/REFERENCES: 6. Sudhir kaiker programming in C 7. Kernighan B.W. and Ritchie D.M.: The C programming Language. 2nd edition. 8. Numerical Methods for Scientific & Engineering Computation by M.K. Jain, S.R.K. Iyengar, R.K. Jain - Willey Eastern Ltd. 9. Textbook on engineering Mathematics by Bali, Saxena and Iyenger Laxmi publications Ltd. 10. Introduction to Numerical Analysis - S. S. Shastry, Prentice Hall of India. MECHANICAL ENGINEERING Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Theory of machines, kinematics of motion, graphical and analytical methods of finding velocity and acceleration of various links in mechanisms. Belts, ropes, gears, flywheel and cams. Heat engineering: Gas laws - air cycles, I.C. engines, steam engine performances and maintenance, etc. Steam cycles. Boiler study with reference to working and maintenance.

FIRST SEMESTER of B. E. II (TEXTILE TECH) APPLIED MECHANICS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Coplanar forces acting at a point. Force polygon. Resultant of a force and couple. Equilibrium of coplanar forces. Funicular polygon. Parallel forces. Reaction of beams. Center of gravity and centroid of the plane sections. Moment of Inertia of the plane sections. FRICTION: Equilibrium on a rough inclined plane,. Angle of friction. The wedge. The screw. The screw jack. LIFTING MACHINES: Basic machines. The differential principles. Pulley blocks. Crab winches. Worm gearing, Linear law. Compound efficiency. ROPE AND BELT DRIVE: Simple and compound belt drive. Velocity ratio. Length of the belt. Transmission of power. Centrifugal tension. Rope drive. TOOTHED GEARING: Simple and compound wheels of trains. Design of wheel train., Gearbox of motorcar. Epicyclic gearing. Reverted trains. Hump age’s speed reduction gear. Differential gear. Strength and elasticity of materials: Stress and strain. Hooke’s law. Elastic limit. Ultimate stress. Factor of safety. Lateral strain. Poisson’s ratio. Tension Compression and shear. Complementary shear stress. Elastic constants and relations. Suddenly applied an impact loads. Resilience. Fatigue of metals. Resolution of stress: Principal planes and principal stresses. Mohr’s stress circle. PRACTICAL / TERM WORK: Laboratory work: A minimum of ten experiments. Graphic statistics: A minimum of ten exercise problems based on the above topics. Laboratory work shall be presented by the candidate in the form of laboratory journal. The graphic statistic work shall be presented by the candidate in the form of drawing file. TEXT / REFERENCES: 7. Applied Mechanics by S. B. Junnarkar and H.J.Shah 8. Mechanics of structures Vol.-I by S. B. Junnarkar and H.J.Shah 9. Engineering Mechanics by H. Shames, Practice Hall Publications 10. Applied Mechanics by D. A. Low 11. Applied Mechanics by Ramamrutham 12. Applied Mechanics by R. C. Patel and B. M. Patel, C Jamanadas & Co. FIBRE SCIENCE & TEXTILE PHYSICS Lecture Tutorials


Theory Total

100 Marks 100 Marks

Basic requirement for fibre formation, long chain molecules, crystal structures, crystal binding. Investigation of fibre structure using infrared absorption method. Study of X –ray diffraction patterns of fibre, study of crystallinity (amorphous and crystalline regions). FIBER DENSITY MEASUREMENT: Displacement of liquid method, specific gravity bottle method. Flotation method. Abbott – Gooding method, and density gradient tube method. SWELLING: Fibre expansion due to water absorption, expansion coefficients, relation between them and their experimental determination. ELECTRICAL PROPERTIES: Dielectric properties, Electrical resistance of fibres and its measurement, static electricity, measurement and explanation of static phenomena. OPTICAL PROPERTIES: Refraction, absorption and dichroism, reflection and luster. THERMAL PROPERTIES: Thermal parameters, structure changes in fibres on heating. TEXT/REFERENCES: 4. fibre structure by Hearle and peters 5. Physical properties of Textile fibres by W.E. Morton and J.W.S. Hearle 6. Introduction to Polymer Physics by Perepechko TEXTILE CHEMISTRY – I Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Introduction to preparatory processes like Singeing, Scouring, Bleaching, Mercerizing etc. Brief introduction to different machines involved in the above processes. Classification of dyes. Brief information on different classes of dyes and their principle and methods of application on cellulosic, protein and synthetic fibres, as applicable. Elementary knowledge on evaluation of colourfastness to washing, light etc. Brief description of various dyeing machines. PRACTICAL / TERM WORK: Based on the above syllabus conducted during semester. TEXT /REFERNCES: 1. Prof. V.A.Shenai : Technology of Dyeing 2. F. Sadov : Chemical Technology of Fibrous Material 3. E.R.Trotman : Dyeing and Chemical Technology of Textile Fibres PRINCIPLES OF YARN MANUFACTURE Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Classification of fabrics and yarns and their functional requirements. Fibre properties and fibre yarn inter relationship. Flow diagram of different spinning systems viz. cotton, woollen, worsted, jute, spun silk etc. Basic principles underlying various processes employed in conversion of different fibres into yarns, Viz. preliminary preparation of fibres, blending, carding, drafting, combing, drawing, twisting etc. TEXT/REFERENCES: 1) Textile yarns B.C.Goswami 2) Spun Yarn Technology Eric Oxtoby 3) Technology of short staple spinning (vol. I) W.Klein 4) Textiles; Fibre to fabric Barnard P. Corbman CHEMISTRY Lecture Tutorials Practicals




Hydrolysis, degree of hydrolysis and its determination and industrial applications. Catalysis, absorption. Osmotic pressure and its determination, reverse osmosis, Hess’s law and its applications, law of chemical combination. Atomic theory, determination of atomic weights. Molecular shape, bond angle, bond length, hydrogen bond, metallic bond. General principles of extraction of ores, extraction of iron, chromium, manganese, Nickel, silver thermite process, alloys, steels, alloy steels. Corrosion and passivity. Sodium hydroxide, sodium carbonate, ammonia, sulfuric acid, hydrogen sulfide, phosphoric acid, sodium hexamete, phosphate. Fuels, producer gas, water gas, water for industrial and boiler feed purposes. Fluorine, hydrofluoric acid, sodium chlorite, bleaching powder, and bleaching solutions, ozone, hydrogen peroxide, potassium permanganate, potassium dichromate, sodium thiosulphate, sodium tetra thionate, silicates, glass, abrasives, refractories, ceramics. PRACTICAL / TERM WORK: Practicals and term work will be based on the above course conducted during the semester. TEXT/ REFERENCES : 1. Inorganic Chemistry 2. Inorganic Chemistry 3. Inorganic Chemistry

: B K Sharma : P L Soni : Gehani, Bhagwat & Parekh

SECOND SEMESTER OF B.E. II (TEXTILE TECH)

YARN PREPARATION – I Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



WINDING: Introduction to different warp preparatory processes, Objects of winding, diff. winding machines with winding as a separate process, different types of winding packages, parallel, random, precision & stepped precision winding and their package characteristic,, winding package parameters and their optimization, creels of different winding machines as per feed packages, basics of balloon formation and related tension fluctuations, balloon breaker, tensioners, clearers (mechanical), knots, introduction to splicing, basics of electronic yarn clearers, yarn fault classification systems, concept of clearing curves and setting of electronic yarn clearers, methods of yarn traversing & package drive, package faults, remedies & winding related calculations. WARPING: Objects, classification, machine details of direct warping & sectional warping machine, drive to machine parts, features of modern machines, process control aspects & warping related calculations. PIRN WINDING: Objects, classification, weft supply systems, types of pirns, build up of pirn, drive, traversing, advancing, process control related aspects & pirn winding related calculations. PRACTICAL / TERM WORK: Practicals and term work will be based on the above course conducted during the semester. Measurements and calculations wherever applicable. TEXT/ REFERENCES : 1. Winding monogram series : BTRA 2. Process control in weaving : ATIRA 3. Yarn Preparation : Sengupta 4. Conversion of yarn to fabric : Lord and Mohammed 5. An Introduction to winding and warping :Dr. Talukdar APPLIED CHEMISTRY Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Detection and estimation of N and S in organic compounds, determination of molecular weight of organic acids and bases. Alkenes, Homogeneous series, free rotation, conformation, chain isomerism, substitution reaction, Thermal and Catalytic cracking, aromatisation, wurtz reaction, cycle alkanes, co-formation, oxidation and reduction reactions. Arenes, orientation, Isomerism of di and triderivatives of benzene. Derivatives of hydrocarbons with the functional group, chloro derivatives alcohols, phenols, ethers aldehydes, calories, carboxylic acid, esters, amides, Nitro derivatives, amines, Azo-dyes poly functional compounds, glycol, Oxilic acid, trataric acid , lactic acid syliculic acid, cresols, resorcinol, pyro-gallic acid, sulphanilic acid, Nitro phenols and Oils, fats, waxes soaps, detergents, sulphonated oils. Polymerisation, addition and condensation reaction , plasticizers, fraction of polymers-L.C. polymers . Polyethylene, Poly-propylene, PVA., PVC, Methylmethacrilate, polystyren, polyester, polyamides, natural and regenerated cellulose, starch, derivatives of starch and cellulose, (e.g. esters and ethers ), Natural and synthetic rubbers. Effluent treatment of industrial waste from textile industry. PRACTICALS / TERM WORK: Splitting of organic substance. Estimation of functional groups in organic compounds. TEXT / REFERENCES: 1. P.L.Soni : Text Book of Organic Chemistry 2. Norman : Advance Practical Organic Chemistry 3. Guru and Kapok :Advanced Experimental Chemistry(III) 4. R.C. Shah :Organic Spotting 5. S.K. Singh :Fund. Engg. Chemistry- theory & Practical 6. C.V.Agrawal : Chemistry of Engg. Materials

SPINNING -I Lecture Tutorials


Theory Pr/tw/viva

100 Marks 50 Marks

Practicals

4 Hrs/Week

Total

150 Marks

Introduction, Objects of blow room, Principles of opening, cleaning and blending. Preparation of uniform lap, lap tester, conventional blow room machines and blow room lines. Recent advances and developments in blow room machinery, including automatic bale openers, blenders and chute feed systems. Dust removal at blow room. Assessment of blow room performance, yarn realization formulation of mix, work allocation, maintenance schedule, processing of manmade fibres, blow room calculation: speeds, production, draft, etc. Object of carding and principles of working, construction and working of the different parts of the card, type of card clothing, development of cards: concept of fundamental requirement of a modern card. Assessment of card performance: cleaning efficiency, waste percentage, nep study, hook study (combing ratio x orientation index curved fibre percentage), sliver uniformity, fibre breakage percentage. Drive calculation: relative speeds and drafts, production, carding number, intensity of carding, etc. Processing of man-made fibre and blends on card. Web doffing mechanisms, Auto-levellers, direct feed to draw frame. Maintenance schedule, work allocation, production balancing, etc. PRACTICAL / TERM WORK: Practicals and term work will be based on the above course conducted during the semester. Measurements and calculations wherever applicable. TEXT/REFERENCES: 1. Butterworth – The Textile Institute : Manual of cotton spinning. Vol-2: Opening and cleaning. : Vol-3: Carding. 2. Gilbert R. Merril : Cotton carding 3. Taggart : Opening and Picking 4. Dr. Zoltern S. Szaloki : The institute series on Textile processing, vol-1: Opening, Cleaning, Picking 5. Institute of Textile technology Charlottesville-Virginia : Vol-2: High speed carding and continuous card feeding. 6. A.R. Garde, T.A. Subramaniam, A.T.I.R.A. : Process control in spinning. 7. K. K. Salhotra : Spinning of man-mades and blends on cotton system. 8. B. C. Goswami : Textile yarn: technology, structure and application. 9. Mafatlal Engineering Industries : Hand book 10. SITRA : Maintenance management in spinning 11. T.A.I / Tablets : Blow room and card WEAVING – I Lecture Tutorials Practicals




Introduction to different methods of fabric manufacturing. Passage of material on loom, drive to loom, timing diagram for cotton and filament yarn weaving. Weaving room calculations. Primary motion: tappet shedding, different types of sheds and shed geometry, design of shedding tappet, over pick and under pick motion, picking accessories, shuttle checking devices, beat up motion, motion of sley and sley eccentricity, physics of cloth formation, limitation and modification of primary motion. Secondary motions, negative let off motion, warp tension behaviour, control. Take up motion on power loom. Calculations related to take up motion and periodic faults, Limitations and modifications. Auxiliary motion: Warp protector and weft stop motions, brake and temple device,Fabric defect at gray stage PRACTICAL/TERM WORK: Study and sketches of primary, secondary and auxiliary mechanism by dismantling, tuning and training for operating loom, drawing in, denting, production of fabric, defects, measurements and calculations wherever applicable. TEXT/REFERENCES: 1. R. Marks and Robinson: Principles of weaving

2. P.R.Lord and M.H.Mohemad: 3. Hasmukhrai: 4. M.K.Talukdar et al: mechnism,management 5. A.Ormerod, W.S. Sondhlem: Operations

Conversion of yarn to fabric Fabric forming Weaving machines, Weaving Technology and

FIRST SEMESTER OF B.E. III (TEXTILE TECH)

Lecture Tutorials Marks Practicals Marks

ELECTRICAL ENGINEERING FUNDAMENTALS 3 Hrs/Week Theory 100 Marks 1 Hrs/Week Pr/tw/viva 50 4 Hrs/Week

Total

150

D. C. CIRCUITS: Preview of Ohm’s Law. Kirchoff’s law. Series parallel connections. Solution of simple D.C. circuits, star delta transformation. A. C. CIRCUITS: Sinusoidal e.m.f. And currents. R.M.S. and average value. Phasor representation. Voltage current relations in purely resistive. Inductive and capacitive circuits and their series combination. Power and power factor. POLYPHASE SYSTEM: Voltage and current relation and power unbalanced 3 phase system. Measurement of power in 3Ǿ system. D. C. GENERATORS: Principle of working. Types of generators. Their characteristics and applications. D. C. MOTORS: Principle of working. Types of motors. Their characteristics and applications, speed control. TRANSFORMER: Review of Faraday’s law and Lenz law. Self and mutual induction. Principle of working of transformer. E.m.f. equation. Uses of transformer, OC and SC test. INDUCTION MOTOR: Principle of working and applications. ALTERNATORS: principle of working, E.m.f. equation. Types and applications. SYNCHRONOUS MOTOR: Principle of working. Special features and its applications. QUANTITATIVE SEMICONDUCTOR THEORY: Conductors. Semiconductors. Semiconductors and insulators. Intrinsic and Extrinsic semiconductors. Conduction in Pn, PNP and npn junctions. Their characteristics. Zener diode. Photo-diode and display devices. TERMWORK : About 8 to 10 experiments based on above syllabus TEXT / REFERENCES: 1. Basic Elect.Engg By. V.N. Mittle 2. Electrical technology by. B.L.Theraja 3. Problems in Electrical Engg. By Parker smith. TEXTILE TESTING – I Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Introduction and importance of textile testing and quality control in textiles. Sampling .Presentation of test data. Standard deviation and C.V.% . Interpretation of data i.e. basic control charts etc. Coefficient of correlation and regression curve. Humidity and moisture in textiles (it includes all the various methods of measuring those). Importance and measurement of trash , fibre length, fineness, maturity, strength etc. Testing of man made staple fibres. Definition, importance and measurement of yarn count and different count systems and their conversion. Definition, importance and measurement technique of twist for single and double yarn based on various principles .Identification of fibres.Introduction to high volume instruments.

TERM WORK/PRACTICAL: Practical and term work will based on the above topics covered during semester. TEXT/REFERENCE: 1. J. E. Booth : Principle of textile testing 2. Grover and Hambay : Hand book of textile testing and quality control 3. Angpappan, R. Gopal Krishna, B.K. Keshwan : Physical testing vol. I & II 4. W.S. Morton and Hearle : Physiacl properties textile fibres . 5. M.E.Ansus and W.W.Adams : Physical Textile Testing 6. Graner : Textile laboratory manuals 7. B.S. Handbook No.11 :Methods of test for textile 8. P.A. Koch and C.J. Hooper : Microscopic and chemical testing of textile 9. M.V.S. Rao and A.B. Telele : Guide in crimping/ textirising 10. J. Lunena and W. Albert : Non woven bonded fabric 11. A.S.T.M. standards for textile material 12. #I.S.I. handbook of textile testing

FABRIC STRUCTURE Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks Practicals 4 Hrs/Week Marks

Theory


150

Design, Draft, Peg-plan. Plain, twill, sateen weaves and their derivatives. Diamond , diper, honeycomb, huck- a- buck, mock leno, crepe, bed ford weaves, distorted thread effect, spot figure designing. Plain, twill, sateen fabrics (e.g. poplin, cambric, canvas, jeans, drill, denim, etc.) and their particulars. Indian standards for determination of threads per decimeter ,crimp and count of yarn. TERM WORK/PRACTICAL: Practical and term work will based on the above course conducted during the semester. Fabric analysis. TEXT/REFERENCE: 1. Watson’s Textile Design and Colour : Z. Grosicki 2 Woven cloth construction : Robinson, Marks

TEXTILE MACHINE CONTROL & QUALITY MANAGEMENT Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Textile Machine Control : Introduction to controls, PLC, DCS, Control valves, sensors, convertors and relays. Electronic controls and automation in textile machines. Signal conditioning data collection and processing. Microprocessors and logic controllers, Pneumatics applications in textiles. Robotics : Introduction and applications in textile. Quality Management : Concepts and various systems, Need, relevance and tools. Documentation and standardization . Various standards for management systems. Flexibility and change in management systems and documentation procedures. ISO 9000 – Importance and Implementation procedures. TQM.Environment protection act , SA 8000 etc. TEXT / REFERENCES: 1. NCUTE Publication, Hiren Joshi, Electronic Controls for Textile Machines. Gauri Joshi : 2. Bela J. Lipak : Process Control

3.

Andrew Par : Industrial Control Hand Book 4. NCUTE Publication : Textile Machine Controls 5. Brochures/ Manuals of machine Manufacturers and other related publications. 6. J.M.Juran : Quality Planning and Analysis 7. P.L.Jain : Quality Control and TQM 8. Publications of TRAs and other agencies on quality management, ISO 9000, TQM and environment. 9. G.Shanmmugam, T.Sivasantaran, D.Sarvanan NCUTE publicatios Quality Control Technique MANAGEMENT OF TEXTILE UNITS Lecture 3 Hrs/Week Tutorials 1 Hrs/Week A. B. C.

D.

Theory Total

100 Marks 100 Marks

Organization for business : small scale, large scale, composite, non-composite units, concept of entrepreneurship. The management process : Emphasize on managerial skills and human behaviour ( with special reference to communication and motivation). Functional areas of management : (i) Business environment : Political, legal, Economic & technological (ii) Marketing : 4P’s of marketing (iii) Finance : Investment decision, finance control techniques. Main F.I’s (iv) HRD Personnel : approaches, functions and techniques. (v) Purchase/Inventory : Purchase procedures. Stores Keeping, inventory decisions. Social concern of management : (i) Introduction to industrial relation (ii) Different Acts (Gist only) pertaining to industrial laws. The factory act, industrial disputes acts, I.R.act. The workman’s compensation act, Trade union act (iii) Industrial relation scenario in respect of industrial law and industrial relations machinery.

SECOND SEMESTER OF B.E. III (TEXTILE TECH)

TEXTILE CHEMISTRY – II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Brief introduction to different methods and styles of Printing. Printing paste ingredients. Basic knowledge of various types of printing machines. Brief discussion on techniques of printing different classes of dyes in different styles. Introduction to finishing and finishing chemicals. Temporary finishes applied on cotton fabrics – Starching, weighting etc. Introduction to Mangles, Stentering, Calendaring etc. Basic principle of crease resistant finishing, water repellent and flame proofing. Heat setting of synthetic fibre - fabrics and their blends. PRACTICAL / TERM WORK: Based on the above syllabus conducted during semester. TEXT /REFERNCES: 1. Prof. V.A. Shenai : Technology of Printing 2. J.T. Marsh : Textile Finishing 3. Hall : Textile finishing

SPINNING –II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week



Preparation for Combing: Conventional and Modern Machines. Technology of Combing, Construction details:Types of Combing. Feature of Modern Combers. Draw Frames: Principles and objects of Drawing. Effect of Doubling, Roller Setting. Irregularities due to drafting and remedies.Control for regularity. Modern Draw Frames. Flyer Frames: Objects., construction and working of speed frame, twisting, winding and builder mechanism. Twist, speed and setting to suit different material. Drafting system on speed frame. Recent developments. Assessment of performance of draw frame,speed frame and comber. Productivity and modernization, process parameters, processing of man made fibres and blends on speed frames. Maintenance schedule , work allocation, production balancing, calculations etc. on draw frames, combers and speed frames Short- process Spinning. PRACTICAL/TERM WORK: Practical and term work will on the above topics covered during the semester. TEXT / REFERENCES: 1. Butterworth- The Textile institute: Manual of cotton spinning: vol -IV draw frame, combers and speed frames 2. Gilbert R. Merril : Cotton combing 3. Gilbert R. Merril : Cotton drawing and roving 4. Taggart : Cotton spinning 5. Dr. Zoltern S. Szaloki : Drawing, combing and roving. 6. A. R. Garde, &T. A. Subhramanium, : Process control in cotton spinning. ATIRA 7. K. K. Salhotra : Spinning of man-mades and blends on cotton system 8. B. C. Goswam: Textile yarns : Technology, structure and applications. 9. M. E.- I : Hand book. 10. SITRA : Maintenance management in spinning. 11. T.A.I./TABLETS : Drawing, Combing , Speed frame 12. T.K.Pattabhiram : Essential elements of practical cotton spinning 13.Textile Tnstitute manual of textile technology: a practical guide to opening and carding : By W. Klien, Vol -2

WEAVING –II Lecture Tutorials Practicals




Introduction to dobby shedding, Conventional dobby, modern dobby, pick finding devices on dobby, dobby mounting, multiple box motions, mechanisms for producing terry pile fabrics, selvedge motions, pick – at - will motions, Ordinary fine pitch and fancy jacquards, Card cutting, repeating and lacing, Electronic card cutting, Modern jacquard, CAD / CAM systems for jacquards TERM WORK / PRACTICAL : Practical based on above topics covered in the theory. REFERENCE / TEXT : 1. Marks and Robinson : Principle of weaving 2. K.T. Aswani : Fancy weaving 3. Bannerjee : weaving mechanism

TEXTILE TESTING-II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks Practicals 4 Hrs/Week Marks

Theory


150

Tensile testing of yarn and fabric: Concept of CRL, CRT, CRE principle of loading, stress, strain, modulus, yield point, work of rupture, work factor, elastic recovery etc. Load elongation curve and its conversion to stress strain curve, factors affecting tensile properties, equipment based on CRT, CRL and CRE principles for yarn and fabrics, ballistic strength tester, constant winding test, lea strength tester. Evenness testing of sliver, roving and yarn, concept of evenness and index of irregularity, theoretical calculation of U%, nature of irregularity, World statistics of U%, and imperfection, length variance curve, all the methods of measuring and assessing irregularities, Evaluation and interpretation of test result and spectrograph, causes and effect of irregularities. FABRIC TESTING: Measurement of construction parameter like length, width, weight per square meter, thickness, crimp etc. Importance and measuring equipment of fabric like drape, handle crease recovery, stiffness etc. pilling and wear abrasion resistance tester, bursting test, air permeability, water permeability and water proofing test, tearing test, tensile and grab test, shrinkage test, color fastness to daylight washing, rubbing , sublimation, perspiration, dry cleaning etc. flammability test etc Analysis of blend composition %age in fabric, Introduction to Kawabata system , AFIS and FAST systems PRACTICAL/TERM WORK: Practical and term work will based on the above topics covered during the semester. TEXT / REFERENCES: 1. J. E. Booth : Principle of textile testing 2. Grover and Hambay : Hand book of textile testing and quality control 3. Angpappan, R. Gopal Krishna, B.K. Keshwan : Physical testing vol. I & II 4. W.S. Morton and Hearle : Physiacl properties textile fibres . 5. M.E.Ansus and W.W.Adams : Physical Textile Testing 6. Graner : Textile laboratory manuals 7. B.S. Handbook No.11 :Methods of test for textile 8. P.A. Koch and C.J. Hooper : Microscopic and chemical testing of textile 9. M.V.S. Rao and A.B. Telele : Guidein crimping/ textirising 10. J. Lunena and W. Albert : Non woven bonded fabric 11. A.S.T.M. standards for textile material 12. I.S.I. handbook of textile testing

INDUSTRIAL ENGINEERING & OPERATION RESEARCH Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Linear programming techniques: Operation research and decision making, types of mathematical models and constructing the model, roll of computers in operations research, formulation of linear programming problem, applications and limitations, simplex method (analytical & graphical) Distribution Methods: Vogel’s approximation methods, modified distribution method, optimization models, unbalance and degeneracy in transportation model. Assignment Models: Hungerian algorithm, traveling sales man problem, routing problems, processing ‘n’ jobs through two machines and three machines, processing two jobs through ‘m’ machines. Network Analysis: PERT and CPM. Total slack, free slack, probability of achieving completion date, cost analysis, updating resource smoothing – roll of computer in network analysis. Inventory Method:

Variable in inventory problem, inventory problem, inventory models with panelty, stoarage and quantity discount, safety stock, inventory models with probability, demand, multi item deterministic model. Queuing Theory: Poisson arrivals and exponential service times, waiting time and idle time cost, single channel multi channel problem, Monte Carlo technique applied to queuing problems, Poisson arrivals and service time. Decision Theory Game: Examples of the application of theory of games 2 x M and M x 2 problems, graphic dominance and linear programming method for different problems, decision trees. Replacement Model: Replacement of item that deteriorate, gradually, fail suddenly. Group replacement policy. Concept of system reliability. TEXT / REFERENCES: 10. Taha, H.A., “Operation Research”, Mc Millan Publicaiton Co. Inc, New York. 11. Hiller, F.S., Liberman, G.J., “Introduction to Operation Research 2 nd Edition”, Holden-Day Inc, San Francisco, 1974. 12. Rao S. S., “Optimization – Theory and applications”, Wiley Eastern, New Delhi, 1978. 13. Rao K.V., “Management Science”, Mc Graw Hill Singapore, 1986. 14. Sesieni, M.A., Yaspan, A. and Friedman, L., “Operation Research: Methods and Problems”, John Wiley and Sons, New York 1959. 15. Wagner, N.B., “Principles of Operation Research”, NJ Prentice hall, 1975. 16. Lewis, C.D., “Scientific Inventory control”, Butterworths, London, 1970. 17. Love, S., “Inventory Control”, Mc Graw Hill, 1979. 18. Naddor, E., “Inventory Systems”, Wiley New York, 1996.

FIRST SEMESTER OF B.E. IV (TEXTILE TECH)

ENGINEERING OF TEXTILE STRUCTURE Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Yarn diameter, measurements, Schwarz's correction factors, twist angle, optimum twist or helix angle for cotton yarns, twist for filament yarns, specific volume of yarns, twist multiplier, relation between twist factor, specific volume and helix angle, contraction and retraction in filament yarn due to twist, expressions. Stress strain curves, young's modulus, tenacity, RKM etc. Ideal yarn geometry and model, mechanics of yarn structure, tensile behaviour of continuous filament yarns, Platt's and Hearl's simple equations, to predict modulus, strain etc., under low strain. Hearl's large strain model (no derivation ) and various parameters. Idea about Treolar and Riding energy method (no derivation). Tensile behaviour of staple yarn, traditional and modified qualitative approach, factors affecting it . Migration, factors controlling and effect of Migration in yarn structure and properties, several parameters. Brief idea about structure characteristics of O.E. and Ring spun yarns, Pierce's basic model of fabric geometry and its application in special cases, modifications in basic model. Yarn crimp in fabric, its measurement, effect of finishing processes on yarn crimp in fabric, crimp interchange. Cover and cover factors – different approaches, conditions for equal coverage in redesigning of fabric. Permeability and porosity of fabric. Fabric weight and weight factor. Theories of cloth setting. Mechanical behaviour of fabric under tensile and compressive load. Shear and Drape behaviour of fabric ( Theory only ) Effect of fabric structure on mechanical properties of fabric. Fundamentals of warp and weft knitted structures, their simple models. Numerical problems based on above topics , wherever possible. TEXT / REFERENCES: 1. J.W. Hearle, P.Grossberg and S.Backer :Structural Mechanics of Fibres, Yarn and fabrics. 2. B.C. Goswami, J.G.Martindale and F.L.Scardioo : Textile Yarns, Wiley international

3. 4.

J.E. Booth A.T.C. Robinson, R. Marks.

YARN PREPARATION II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 4 Hrs/Week

: Textile Mathematics – Vol III. : Woven Cloth Construction



Auto Winding: Introduction, Classification, Salient feature of large group winder ( B C Spooler ). Small group winder ( e.g. autoconer 138 ) - Details of various elementsof machine leading to better quality of package, ease of operation and higher productivity, Knotting cycle, Winder with individual splicer / knotter for each spindle - various technological developments leading to better quality and productivity, Automation in cop feeding and winding package doffing, Details of splicing and new generation of yarn clearers Sizing: Introduction, Sizing machine ( creel, size box, drying, dry splitting and winding section ), Size box ( conventional, features of modern size box, temp & level control ), Sizing ingredients ( adhesive, softner-lubricant, antiseptic, antistatic agents etc ), Drying, Size preparation, New developments TERM WORK / PRACTICAL : Based on above syllabus conducted during the semester. TEXT / REFERENCES : 1 D. B. Agaonkar : Sizing Machines, Methods And Materials 2 Btra : Warping and Sizing 3 J. B. Smith : Warp – Sizing Technology Students are advised to refer the various catalogues, journals and symposia to acquire more comprehensive and latest trends and technology. SPINNING III Lecture Tutorials Practicals




Objects of spinning. Conventional spinning methods, Constructional details of Ring frame. Recent developments. Reeling and bundling. Production of doubled, folded and fancy yarns. Concept of productivity and its control. Processing of man-made fibres and blends on Ring frames. Principle, constructional details and working of rotor spinning. Recent developments. Comparison of ring spinning and rotor spinning systems. Assessment of performance, Maintenance schedule, work allocation, production balance, calculations etc. of Ring and Rotor spinning systems and doubling process. Waste spinning. PRACTICALS/TERM WORK: Practicals and term work will be based on the above course conducted during the semester. TEXT/REFERENCE: 1. Butterworth series : Manual of cotton spinning Vol- V 2. A.R.Garde & T.A. Subramanian : Process control in spinning 3. Gilbert R.Merrill : Cotton Spinning 4. W.Klein : A Practical Guide to Ring Spinning (Textile Institute vol 4 series ) 5. Salhotra K.R. : Spinning of Man-Mades and blends on cotton spinning system 6. Eric Oxtoby : Spun yarn Technology 7. R. Neild : Rotor Spinning 8. Text. Asso. of India : Spinning Tablets - (Ring frame, doubling) 9. M.E.I. Hand Book WEAVING III

Lecture Tutorials Practicals




Auto looms : Introduction to automatic shuttle looms, various weft feelers, cop & shuttle changing mechanisms, Positive let off motions – Principle & action. Method of warp tensioning, various let off motions (based on method of warp tensioning & beam driving ), Warp stop motions, Weaving of filament yarns. Shuttleless weaving machines : Projectile – Picking cycle, Preparation for picking, shifting of projectile & transfer on conveyor, Torsion bar picking mechanism, Beat up mechanism, Tucking in of weft, Timing diagram, Details of projectile. Air jet – Nozzles ( main, relay, stretch etc ) , position & setting of relay nozzle, Profile reed. Water jet – Working of picking mechanism. Rapier – Rigid & flexible rapier weaving machine, Rapier drive, Rapier head design and picking cycle. PRACTICALS/TERM WORK : Based on the above topics covered in the theory . TEXT / REFERENCE : 7. Marks and Robinson : Principle of weaving 8. V. Duxdury and G.R.Wary : Modern developments in weaving machinery. 9. O.Talavasek and V.Svaty : Shuttleless weaving machines. 10. P.R.Lord and M.H.Mohmed : Weaving conversion of yarn to fabric. 11. BTRA : Loom shed 12. M.K. Talukdar : Weaving-Mechanism, Machine & Management MAN MADE FIBER TECHNOLOGY I Lecture 3 Hrs/Week Tutorials 1 Hrs/Week

Theory Total

100 Marks 100 Marks

Introduction. Outlines of the manufacturing process of important manmade fibres like Nylon, Polyester, Polypropylene, Acrylics, Rayon, Spandex etc., properties and end uses. Polymer characterization. Detail study of melt spinning process including polymerization, chip forming, extrusion, etc. Spin finishes. Post-spinning operations like drawing tow to top conversion, staple cutting, twisting etc. Outline of Industrial fabrics, non- woven manufacture and Geotextiles, their properties and end uses. TEXT/REFERENCE: 8. J. Lunenschloss and W.Albercht : Non Woven bonded fabrics 9. V.K.Kothari & V.B.Gupta : Manufactured Fibre Technology 10. B.L.Deopura : Manmadefibres, NCUTE pilot programme. 11. Ashwini Agrawal : Solution spun fibres, NCUTE pilot programme. 12. A.A. Vaidya : Production of synthetic fibres 13. R.W.Moncrieff : Manmade Fibres 14. B.C.Goswami, J.G.Martindale and F.L.Scardioo (Wiley international) : Textile Yarns 8. G. R. Wary : Modern Yarn Production. 9. Journals and periodicals in the selected topics.

SECOND SEMESTER OF B.E. IV (TEXTILE TECH) TEXTILE PRODUCTION MANAGEMENT AND COSTING. Lecture 3 Hrs/Week

Theory

100 Marks

Tutorials Marks Practicals Marks

1 Hrs/Week

Pr/tw/viva

4 Hrs/Week

Total

50 150

Spin plans ( hank and draft schedule) for various counts and yarns, blends. Production rates, waste, efficiency level of modern machines. Estimation of number of machines for yarn manufacturing, , yarn preparatory and fabric manufacturing departments. Cloth setting rules and estimation of quantity of yarn requirement . Export norms. Different categories of Labour required in textile production process, their training and work load analysis . Estimation of Labour requirement and its norms. System of wage payment, Retrenchment, dismissal, suspension of workers, lay off and closure of industry. Reason for industrial sickness. Selection of site for textile industry, principles of machinery lay outs and flow plans. Different methods of material handling. Types of buildings used and their constructional details. Humidification and AirConditioning. Environmental and health hazards in textile industry. Elements of costs methods of costing. Application of cost overheads to production cost centers, calculation of direct and indirect cost for yarn and fabric conversion processes. Cost control in textile industry. Theory and practice of marginal costing, break even charts. Financial resources to start a new textile industry, Planning of working capital, cash flow estimates and evaluation techniques financial statement ratio analysis. Depreciation and different systems of providing depreciation. Inventory management. Organization of large and small scale textile units. Numerical problems based on the above topics, wherever possible. TERM WORK / PRACTICAL : Planning , preparing and drawing of lay-outs for yarn to fabric conversion processes with spin plans, estimations of number of machines and cost. Line sketches of manufactured fiber / yarn producing line , machine lay outs of knitting and garment manufacturing. TEXT / REFERENCES : 1. Dr. M.K.Talukdar et. Al. :Weaving – Mechanism, machines and management. 2. P.V. Bhave & V. Srinivasan :Cost accounting in textile mills. 3. M.Y.Khan & P.K.Jain :Financial management, Text and problems 4. Sprigel :Principles of Industrial management 5. K.D.Saksena :Dynamics of India’s Textile Economy. MAN MADE FIBER TECHNOLOGY II Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Practicals 2 Hrs/Week



Importance of texturising. Methods of texturising. Basic principles. Physics of texturising. False twist texturising. Developments of false twist texturising machines. Hardwares used in false twist texturising. Structural geometry of textured yarn. Stuffer box texturising, edge crimping, gear crimping, knit-de-knit process. Texturising of non-thermoplastic yarns- Airjet and chemical texturising. Characterization of textured yarns. Testing and quality control. Recent developments, detailed study of the blended yarn manufactured on cotton system of spinning. Problems of blending. Blended yarn properties and fabric performance. TERM WORK / PRACTICAL: Based on the above syllabus conducted during the semester. TEXT / REFERENCE: 6. B. C. Goswami, J.G. Martindale , and Scardino : Textile Yarns 7. G. R. Wray : Modern Yarn Production 8. Dr. M. V. S. Rao And A. B. Talele : A Guide To Crimping/ Textured Technology 9. Berkeley L. Hathorne : Woven Stretch and Textured Fabrics 10. K. R. Salhotra : Spinning Of Manmade And Blends on Cotton System PROCESS CONTROL AND MODERN YARN PRODUCTION

Lecture Tutorials Marks Practicals Marks


Theory

2 Hrs/Week


150

Scope of process control in spinning , Assessment of yarn realization and control. Productivity and control. Control of yarn quality. Concept of machinery audit. History and development of open end spinning, different systems of open end spinning, Airjet spinning ,friction spinning, twistless-selftwist and other unconventional spinning systems, structure and properties of these yarns. PRACTICAL / TERM WORK / VIVA : Based on the above course conducted during the semester. TEXT / REFERENCE: 1. B. C. Goswami, J.G. Martindale, and Scardino : Textile Yarns 2. Eric Oxtopy : Spun Yarn Technology 3. R. Nield : Rotor Spinning 4. W.Klein : New Spinning System (Short Staple Spinning) Vol 5 5. A. R. Garde & T. A. Subramaniam : Process Control In Spinning 6. P.R. Lord : Spinning In The Seventies 7. T.V. Ratnam, K.P.Chellamani, SITRA. : Quality Control in Spinning 8. T.V.Ratnam, Indra Dorai Swamy, S.Seshadri, R.Rajamanikam, SITRA. : Cost Control and costing in spinning Lab. 9. The SITRA Publication : SITRA Norms for Spinning Mills

GARMENT TECHNOLOGY Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks

Theory Total

100 Marks 100

Pattern making terminologies, Anthropometrics, Size charts, ranges and grading. Garment machinery, equipments, attachments, and their specifications. Cutting including spreading, marker planning and cutting, stitch classification, all machines of lock stitch and chain stitch. Seam stitch interplay in strength, elasticity and slippage, choice of threads and needles, causes of stitch damage and thread failure. Basic principles and comparison of machineries for a variety of sewing operations. Chain, lock, blind, multi-needle and multitask stitching machines. Special purpose attachments. Application of stitch and seam types in garment construction. Tailarability and Sewability of material, quality control.

KNITTING Lecture Tutorials


Theory Total

100 Marks 100 Marks

Introduction, Knitting needles. Weft Knitting : Basic weft knit structures, basic weft knitting machine, float & tuck stitches and their knitting, loop transfer stitches, racked rib structures, cable stitch, designing of weft knit structures. Production & fabric calculation, Engineering approach to knitting calculations. Warp Knitting : Classification of warp knitting machine, Tricot & Raschel Knitting machine, warp knit structures and their representation: Single bar fabric, Two full set guide bar structures. TEXT/REFERENCES: 1. David J. Spencer : Knitting Technology 2. D. B. Ajgaonker : Knitting Technology TECHNICAL TEXTILE ( ELECTIVE ) Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks

Theory Total

100 Marks 100

Non-woven : - Introduction to non-wovens, manufacturing processes of non-wovens : dry laid process, wet laid process. Various bonding techniques:- mechanical bonding, adhesive and thermal bonding, stitch bonding, etc., Raw materials and bonding agents used in nonwovens. Testing of nonwovens. Industrial Textiles : Introduction, Principles of Industrial Textiles & Classification, Raw materials : Fibres, yarns, Fabrics etc.. Coating & Laminating processes. Textile composites. Geo-textiles, Medical Textiles, Filtration Textiles, Military and Defense Textiles, safety and protective Textiles, transportation Textiles and other specialty Textiles. TEXT / REFERENCES : 7. Francis M. Buresh : Non-Woven Fabrics 8. M. S. Casper : Non-Woven Textiles 9. J. Lunenschloss & W. Albrecht : Non-Woven Bonded Fabrics 10. Sabit Adanur : Wellington Sears hand book of Industrial Textiles. 11. Dr. V.K.Kothari : Textile Fibres : Development & Innovations. 12. M.G.Kulkarni : Textile Manufacturing.

ADVANCE FABRIC STRUCTURE ( ELECTIVE ) Lecture 3 Hrs/Week Tutorials 1 Hrs/Week Marks

Theory Total

100 Marks 100

Colour and weave effect. Figuring with extra threads. Warp & weft pile structures. Gauze & leno structures, Jacquard designing. Backed, double & triple cloth. Dobby & jacquard design software. TEXT / REFERENCE : 3. Z. J. Grosiscki 4. Z. J. Grosiscki

: Watson’s Textile Design And Colour : Watson’s Advanced Textile Design

NANOTECHNOLOGY IN TEXTILE( ELECTIVE ) LECT + TU: 3+1 PAPER (3 HRS): 100 MARKS TOTAL: 4 TOTAL : 100 MARKS Basic idea of Nano-technology – Introduction to Nano-technology in textiles- Nano-fibres development- Nano-touch fabric technology, like, water repellent, wrinkle resistance, breathable, stain resistance, medical, etc. – Nano-textile coatings- Nano and smart textiles – Application of nano technology for High performance textiles. Ref:K.Eric.Drexier: Engines of Creations: The Coming Era of Nanotechnology, Anchor Reprient Edition, 1987. David R. Forrest: The future impact of molecular nanotechnology on textile technology and on textile industries, industrial fabric & equipment exposition : Charlotte, N.C.U.S.A.(Technical notes), Oct. 1995. Nanotechnology at BASF: A Great future for tiny particles, Oct. 2002. Proceedings of seminar on nanotechnology: opportunities in textiles, Indian Institute of Technology, New Delhi, Sept. 2005.

*************

SUBJECT

SCHEME OF TEACHING FOR DIPLOMA IN TEXTILE TECHNOLOGY Teaching Schedule Examination Schedule L P T Paper Durat Theory TW / -ion PR / (Hrs) Viva

FIRST SEMESTER: DTT- I 1.MATHEMATICS - 1 2. PHYSICS 3.CHEMISTRY 4 OUTLINE OF TEXTILE PROCESSES 5.WORKSHOP PRACTICE 6.COMMUNICATION SKILLS TOTAL: SECOND SEMESTER: DTT - I 1.TEXTILE CHEMISTRY - 1 2. MACHINE DRAWING 3.WOVEN STRUCTURE-I 4.WEAVING TECH.-I 5.MATHEMATICS –II & STATISTICS TOTAL: FIRST SEMESTER: DTT - II 1.SPINNING TECHNOLOGY - I 2.WOVEN STRUCTURE - II 3.YARN PREPARATION - I 4.PROD. OF MANUFACTURED FIBRE 5.ELECTRICAL TECHNOLOGY TOTAL: SECOND SEMESTER: DTT - II 1.TEXTILE CHEMISTRY - II 2.WEAVING TECHNOLOGY -II 3.SPINNING TECHNOLOGY -II 4.MECHANICS OF TEXTILE MACHINERY 5.GENERAL MANAGEMENT OF TEXTILE UNIT TOTAL: FIRST SEMESTER: DTT - III 1. SPINNING TECHNOLOGY-III 2. TEXTILE TESTING - I 3. WOVEN STRUCTURE - III 4. TEXTILE PRODUCTION PLANNING & COSTING 5. KNITTING TOTAL: SECOND SEMESTER: DTT - III 1. YARN PREPARATION - II 2. WEAVING TECHNOLOGY-III 3. TEXTILE TESTING - II 4. MANUFACTURED FIBRE PROCESSING 5. GARMENT MANUFACTURING TECHNOLOGY TOTAL:

Total Mark s

4 4 4 4

-4 4 2

4 8 8 6

1 1 1 1

3 3 3 3

100 100 100 100

-50 50 50*

100 150 150 150

3 19

4 14

4 3 33

-1 5

-3

-100 500

50 200

50 100 700

3 3 3 3 4

3 3 4 4 -

6 6 7 7 4

1 1 1 1 1

3 3 3 3 3

100 100 100 100 100

50 50 50* 50 -

150 150 150 150 100

16

14

30

5

500

200

700

3 3 3 3

6 4 6 --

9 7 9 3

1 1 1 1

3 3 3 3

100 100 100 100

50 50* 50 -

150 150 150 100

3 15

2 18

5 33

1 5

3

100 500

50 200

150 700

3 3 3 3

4 4 4 --

7 7 7 3

1 1 1 1

3 3 3 3

100 100 100 100

100 100 100 --

150 150 150 100

3

--

3

1

3

100

--

100

15

12

27

5

500

300

650

3 3 3 4

6 4 4 --

9 7 7 4

1 1 1 1

3 3 3 3

100 100 100 100

50 50 50* --

150 150 150 100

3 16

-14

3 30

1 5

3

100 500

-150

100 650

3 3 3 3

4 4 4 -

7 7 7 4

1 1 1 1

3 3 3 3

100 100 100 100

50 50 50 -

150 150 150 100

3

-

3

1

3

100

-

100

16

12

28

5

500

150

650

TEXTILE ENGINEERING DEPARTMENT F. S. OF D.T.T.- I MATHEMATICS - I Lect. +Tu. : 3+1 Paper (3 Hrs.) : 100 marks Total :4 Total : 100 marks CODE - 111 Unit – 1: Algebra Determinants: Definition and properties of simultaneous linear equations using Cramer’s rule. Matrices: Definitions and elementary operations. Unit – 2: Trigonometry Trigonometric ratio of allied angles. Addition formulae, inverse functions, trigonometric equations, properties of triangle. Unit – 3: Co-ordinate Geometry Points, straight line, circle, parabola, hyperbola, ellipse. Unit – 4: Differential Calculus Limits, first and higher order derivatives, rues for differentiation, chain rule, integrals substitution method, integration by parts, method of partial fractions. Ref. Books. 1. Algebra by N N Shah 2. Trigonometry by Loney 3. University Mathematics by C C Shah

PHYSICS CODE-112 Lect. +Tu. : 3+1 marks Prct :4 Total : 8 marks

Paper (3 Hrs.) Prct/Tw/Viva : Total

: 100

50 marks : 150

GENERAL PHYSICS 1.

Units and Dimensional Analysis; Significant Figures, Errors. (1L)

2.

Scalars and Vectors; Dot product, Cross product. (1L)

3.

Review of Rectilinear motion; Motion in Two-Dimensions; Projectile Motion; Relative Velocity. (2L)

4.

Review of Newton’s Laws of Motion; Momentum and Conservation of Momentum; Law of Gravity; Force of Friction (Static, Dynamic, and Rolling); Incline Plane; Uses and Limitations of Friction; Viscous force, Coefficient of Viscosity; Stokes’ Law; Elasticity and Hooke’s Law. (5L)

5.

Work: Unit of Work, Power, Energy, Potential Energy and Kinetic Energy; Conservation of Energy. (1L)

6.

Rotational Motion: Kinematics of Angular Motion; Angular variables; Relation between Linear and Angular Variables; Dynamics of Angular Motion: Torque; Work done by a Torque; Center of Mass; Moment of Inertia; and Rolling Motion. (4L)

7.

Fluids: Pressure; Archimedes Principle; Bernoulli’s Principle; Surface Tension. Density of Solids, Liquids, and Fiber. (2L)

OSCILATIONS AND WAVES 8.

Simple Harmonic Motion; Damped and Forced Oscillator; Resonance. (3L)

9.

Waves: Wavelength, Period, and Frequency; Longitudinal and Transverse Waves; Traveling and Standing Waves; Idea of Superposition of Waves; Examples of Mechanical Waves; Sound, Ultrasonic. (3L)

HEAT 10.

Review: Zeroth Law of Thermodynamics; Temperature and Scales of Temperature;; Linear Expansion; Thermal Conductivity; applications to Fibre; Temperature Sensors. (1L)

11.

Introduction to the Laws of Thermodynamics (First and Second); Heat; Specific Heat, Latent Heat; Measurement of Specific Heat and Latent Heat; Thermoelectricity (Qualitatively): Seebeck Effect, Peltier Effect; Thomson Effect; Thermocouple as a Temperature Sensor. (3L)

ELECTROMAGNETISM 12.

Electrostatics- Coulomb’s Law; Electric Field and Potential; Idea of Capacitance and Dielectric; Applications in Textile Physics. (3L)

13.

Current and Resistance; Kirchoff’s Law; Ohm’s Law; Ohmic and Non-Ohmic Devices. (2L)

14.

Magnetostatics: Magnetic field due to Electric Current flowing in a straight conductor and a circular coil; Solenoid; analogy with a Bar Magnet. (2L)

15.

Faraday’s Law: Concept of Flux; Self-induction and Mutual induction. (1L)

OPTICS 16.

Electromagnetic Radiation; Review of Reflection and Refraction (Mirror, Lens, Prism); Refractive Index of Textile Materials; Microscope, Telescope; Elementary Color Science. (4L)

17.

Elementary ideas of Interference and Diffraction; Single-slit and Double-slit; applications in Textile. Polarization of Light. (3L)

MODERN PHYSICS 18.

Modern Physics: Basic Idea of Quantization; (Problem of the Black-Body Radiation; Planck,) Photoelectric effect and its Applications; Bohr Model of the Atom; de Broglie Waves; X-rays, Lasers. (5L)

19.

Semiconductors: p-n diode; LED; Photodiode; Solar Cell; Thermistor as a Temperature Sensor. (3L)

20.

Radioactivity: α-, β-, and γ-rays. (1L)

References: 1. 2. 3. 4.

Engineering Physics by R. K. Gaur and S. L. Gupta. Applied Physics by Prof. B. G. Bhandarkar. Applied Physics for Polytechnics by Prakash Manikpure. Fundamentals of Physics by R. Reisnick, D. Halliday, and Jearl Walker.

5. Fundamentals of Physics Vol. I & II by S. C.Verma. 6. Physics XI & XII (Gujarat Board)

CHEMISTRY CODE- 113 Lect + Tu.. : marks Pract.: Total : marks

3+1

Paper (3 Hrs.)

4 8

Pr / Tw / Viva Total

: :

100

50 marks : 150

1. Solutions, properties of solutions (viscosity, surface tension), colligative properties (elevation of boiling point, depression of freezing point), colloids, sols and gels, determination of molecular weight, empirical and molecular formulae. 2. Distinction between organic and inorganic compounds, study of organic substances- aliphatic and aromatic compounds, functional groups and their reactions, addition, substitution, halogenations, nitration, sulphonation, alkali fusion, oxidation, reduction, condensation, fermentation, esterification, hydrolysis and diazotization. 3. Carbohydrates-glucose, fructose, cellulose, regenerated cellulose, cellulose derivatives. 4. Chemistry of polymerization, chain and condensation polymerization and their examples, thermoplastics and thermosetting resins, elastomers, fibres (natural and man made). Ref. 1. Principles of Physical Chemistry by B. R. Puri, L. R. Sharma and M. S. Pathania (Shobanlal Nagin Chand and Co.., New Delhi) 2. Textbook of Physical Chemistry by P. L. Soni 3. Industrial Chemistry by B. K. Sharma (Goel Publishing House, Meerut) 4. Engineering Chemistry by P. C. Jain and Monika Jain (Dhanpat Rai Publishing Co (P) Ltd.,New Delhi) OUT LINE OF TEXTILE PROCESSES CODE-114 Lect. +Tu. : 3+1 Prct. :- 2 Total : 6

Paper (3 Hrs.) T.W Total

:

100 marks 50 marks : 150 marks

Classification of textile fibres, important properties of various textile fibres. Introduction to yarn production of processes. Flow charts of carded and combed cotton yarn. Brief description of spinning processes. Definitions of yarn numbering systems. Introduction to yarn preparatory processes and weaving. Ref. Textile fibres – Dr. H.V.S. Murthy

Textiles - A.Wynne ( Motivate Series ) WORKSHOP PRACTICE CODE-115 Pract.: 4 marks Total : 4 marks

Pr / Tw / Viva

: 50

Total

: 50

*Practical ( Job Work ) in Turning – as per drawing – with demonstration Internal diameter, V- threads, knurling *Practical ( Job Work ) in Welding – as per drawing With demonstration of welding rods *Practical ( Job Work ) in Shaping – as per drawing *Demonstration in Milling – Different Slots using Milling Cutter *Demonstration in Smithy *Demonstration in Drilling – holes of 10 to 15 mm diameter *Demonstration in Tapping – holes of 08 to 10 mm diameter. Ref. Book. 1. W.A. J. Chapman – Engineering Workshop Trade Practice 2. Hajra , Chaudhary – Work Shop Practice. COMMUNICATION SKILLS CODE-116 Lect. + Tu. : 2+1 marks Total : 3 marks

Paper (3 Hrs.)

: 100

Total

: 100

Objective : This course aims at developing and enhancing speaking, reading and writing skills of the students, in English with the ultimate goal of enabling them to perform adequately and usefully in real life situations. Text book: Sarah Freeman, Written Communication in English, Orient Longman Private Limited. Recommended Texts: 1. English Skills for Technical Students, Kolkata: Orient Longman ltd. 2. Bellare Nirmala, Reading and Study Strategies, Book 1 and 2, 1998, Mumbai: Oxford University Press. 3. Tickoo, M.L., et.al. Intermediate Grammar, Usage and Composition, 1976, New Delhi: Orient Longman Private Limited. Course Content: [A] Reading and Writing skills

• • • •

Reading Comprehension (General Passage) Note Taking (Technical Passage) Interpreting and representing visual/verbal information Drafting Job-Application Letters [B] Speaking Skills

• •

Situational Dialogues Facing Interviews [C] Grammar and Composition

• • • • •

Grammar Error analysis Word Formation Drafting short notices/messages Writing semi-formal letters Guided Composition S.S OF DTT-II TEXTILE CHEMISTRY- I CODE-121 Lect.+Tu : 2+1 Paper (3 Hrs.) : 100 marks Pract.: 3 Pr / Tw / Viva : 50 marks Total : 6 Total : 150 marks Classification of fibres, Natural and added impurities. Physical and chemical identification of fibres. Action of acids, alkalis, Reducing & Oxidizing agents, Action heat, light, microorganisms on cotton, wool, silk and man made fibres. Recent developments about textile fibres in brief. Bleaching agents, acids and alkalis used in wet processing of Textiles. The origin, chief properties and methods of application of adhesives, softeners, weighting substances, deliquescent and antiseptic substance used in sizing and finishing and simple tests to determine the purity and value of these substances. Ref. Book . Technology of Fibres – V.A. Shenai.

MACHINE DRAWING CODE-122 Lect.+ Tu. Pract. marks Total marks 1. 2. 3. 4.

: 2 +1 :3 : 6

Paper (3 Hrs.) : 100 marks Pr / Tw / Viva : Total

Types of lines, let5terings and dimensioning as per IS-SP-46, 1988. Orthographic projections – First angle projection only. Types of sectional views, sectional views of sectional objects. Practice of freehand proportionate sketches of following machine parts :

50 : 150

a)

e) f) g) h)

Screw threads : nomenclature, types and application: ISO metric screw thread designation scheme , conventional representation of threads. Types of nuts and bolts: their drawing as per rough –rule dimensions, applications: special purpose nuts. Studs, setscrew Illustration of method of prevention of rotation of bolts, locking arrangement for rules, foundation bolts. Piping symbols Keys: their types: cotter- joint: pin point Riveted joints, welded joints, their types Muff coupling , flanged coupling

Ref.Book. 1. 2. 3.

N.D.Bhatt Machine Drawing Charotar Pub. House Siddheswar- Machine Drawing – Tata McGraw Hill Pub. P.J.Shah – Engineering Drawing – II

b) c) d)

WOVEN STRUCTURES - I CODE-123 Lect. +Tu. : 2+1 marks Prct : 4 Total : 7 marks

Paper (3 Hrs.) Tw

:

50 marks Total

: 100 : 150

Introduction to woven fabrics, classification of woven fabrics, weave notations, (symbolic representation of design, draft, peg plan and denting order). Plain weave and its derivatives methods of ornamenting plain cloths, twill and satin/sateen weaves and their derivatives, diamond and diaper weaves, Honey comb weaves, huckaback weaves. Analysis of cloth samples of above mentioned weaves and determination of design, draft and peg plan-. Recognition of fabric, yarns and material used in construction – calculations – related to quantity of material required and loom accessories / requirements. Ref. Book. 1. Watson’s Textile design and colour – Z. Grosicki 2. Grammar of Textile Design – H. Nisbet.

WEAVING TECHNOLOGY – I CODE-124 Lect. +Tu. : 2+1 Paper (3 Hrs.) : 100 marks Prct : 4 Prct/Tw/Viva : 50 marks Total : 7 Total : 150 marks Introduction to plain power loom- Primary motions, shedding,picking beat up ; Secondary motionstake up and let off: Auxliary motions: Weft Stop motion,warp protector- Production calculations- Loom state common fabric defects. Ref. Books :1. Principles of weaves – K.T.Aswani 2. Fabric Forming – B. Hasmukhrai 3. Principles of Weaving – R.Marks & ATC Robbinson 4. Weaving – NCUTE Book. 5. Weaving Mechanism : K.K.Murthy ( Study material ) PRACTICAL:-(i) Fixing and timings of different parts of plain power loom. (ii)

Weaving of plain cloth on the looms.

MATHEMATICS-II & STATISTICS CODE-125 Lect.+Tu. : 3+1 marks Total :4 marks

Paper (3 Hrs.)

:

100

Total

: 100

Unit -1 : Analytic Solid Geometry. Point and line in space, plane, planes through line, co-planner lines. Sphere, tangent plane to the sphere, space circle, spheres through space circle. Introduction to surfaces using mathematical software. Unit -2: Ordinary Differential Equations(ODE) with Applications Order, degree and solution of ODE, first order first degree differential equations, separable variable, homogenous, exact, linear and Bernoulli’s differential equations applications. Unit -3: Statistics Measure of central tendency, measure of dispersion. Correlation, Karl Pearson’s coefficient of correlation, Regression, lines of Regression. Unit -4: Probability Sample, Space ad events, probability, conditional probability, addition law and Multiplication law of Probability, Baye’s theorem, Probability distribution Reference: 1. Erwin Kreyszig – Advance Engineering Mathematics, Johnwilley & Sons. 2. B S Grewal – Higher Engineering Mathematics, Khanna publishers. 3. B.V. Ramana - Higher Engineering Mathematics, Tata McGraw – Hill Pub. Co. Ltd.

****** F. S. OF D.T.T.-II TEXTILE CHEMISTRY – II CODE-221 LECT. : 2 TUTORIAL : 1 PRACT.: 4 TOTAL : 7

Paper (3 Hrs.) : 100 marks PR / TW / VIVA : 50 Total : 150 marks

Objects and methods involved in the process of desizing, scouring, bleaching, souring, washing etc.. Principles involved in the process of dyeing. Classification of dyeing methods involved in the application of different groups of dyes on different fibres. The methods and styles of printing,. Introduction to finishing of fabrics with brief survey of the methods used. Recent development in brief. Ref. Book. 1. Technology of bleaching – V.A. Shenai 2. Technology of Dyeing – E.R. Troatman 3. Technology of Printing & Finishing – V.A. Shenai

D-211 LECT. : 3

SPINNING TECHNOLOGY - I Paper (3 Hrs.)

: 100 marks

PRACT.: 6 PR / TW / VIVA : 100 marks TOTAL : 9 Total : 200 marks Characteristics of cotton and its importance grading of cotton. Different varieties of cotton. Brief study of the ginning process. Blow Room machinery: Modern and conventional objectives of Blow Room, Relationship between trash count and process sequence. Causes for variation in laps. Objects of carding. Working of carding machines. Different types of card clothing, grinding and stripping of cards. High speed cards. D-222 FABRIC STRUCTURE - II LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 4 PR / TW / VIVA : 50 marks TOTAL : 7 Total : 150 marks Construction of Diamond, Simple spot, Honey comb, Huck-a-back, Basket weave, Mock- leno, Corkscrew, Grecian, Crepe, Ribs and cords. Bed-ford cords, pique, Warp and weft distorted effects, Color and weave effects, Extra warp and weft fabrics, Backed fabrics, Plain and fancy ribs. Preparation of design, peg plan and drafting for the above fabrics, Analysis of fabric for above weave, costing of fabric, selection of suitable yarns, for fabric refered above. D-213 YARN PREPARATION-I LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 6 PR / TW / VIVA : 100 marks TOTAL : 9 Total : 200 marks Brief survey of warp and weft preparatory processes. Different types of yarn packages. Slow speed winders. Drum and upright spindles winders, with different types of traversing mechanisms. Split drum winder. High speed cheese and cone winders. clearers and tensioning devices, winding faults and remedies. warping - its principes-systems of warping slow, high speed and super speed beam warpers. Sectional and mill warper planning and pattern warp calculations. Weft winding: Advantages and disadvantages of rewinding weft. Essential feature of rewound weft. cup and cone slow speed winder. D-214 PRODUCTION OF MAN MADE FIBRE LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: -PR / TW / VIVA : -TOTAL : 3 Total : 100 marks Study of physical and chemical properties of: Viscose Rayon ,Acetate Rayon ,Polyamides , Polyesters, Acrylic,Polypropylene and Elastomeric fibres. Filament yarn production including drawing, texturising and heat setting. Staple yarn production on conventional systems and tow to yarn production. Different countimg systems for above yarns. D-224 ELECTRICAL TECHNOLOGY LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 2 PR / TW / VIVA : 50 marks TOTAL : 5 Total : 150 marks D.C. Circuits: Conductors, Insulators, Resistance, Effect of temperature upon resistance, Ohm's Law, Kirchoff's Law, Solution of simple series and parallel circuits, power energy. Electromagnetism and magnetic circuits: Magnetic flux, flux density, magnetimotive force (mmf), reluctance and permeability and their relationship, similarity of Magnetic and Eletric circuit

calculation of mmf, simple series circuits, Hystresis, loop, Electromagnets, Lifting power of Eloctromagnets. D.C. Motors: Principle, Back e.m.f. equation, Construction and uses of Shunt series and compound dynamos and their uses, Operating, characteristics of different types of generators.

4.

D.C. Motors: Principle, Back e.m.f., Construction and uses of Shunt series and compound motors and their uses, Shunt motor starters. Speed control of D.C. Motors.

5. 6.

A.C. Quantities: Generation of A..C., e.m.f. cycle, Frequency, Effective and Average values.

7.

Transformers: Principles of action, e.m.f. equation, Transformation ratio, Voltage regulation, Losses and efficiency.

8.

Three phase Circuits: Star and Delta connection, Relationships between line and phase voltage in star connected systems and line and phase currents in delta, connected systems with balanced load.

A.C. Single Phase Circuits: Reactance and Impedance concepts, Phase and phase difference, Simple R.L.C. Circuits, Power and Power factor.

9. Induction Motors: Principle of action. 10. Measuring Instruments: Simple working

and use of common Ammeters, Voltmeters, and Wattmeters for use in A.C. and D.C. Circuits. S. S. OF D.T.T.-II

D-221 TEXTILE CHEMISTRY- I LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 6 PR / TW / VIVA : 100 marks TOTAL : 9 Total : 200 marks Classification of fibres, Natural and added impurities. Physical and chemical identification of fibres. Action of acids, alkalies, Reducing Oxidising agents, Action heat, light, microorganism on cotton, wool, silk and man made fibres. Bleaching agents, acids and alkalies used in wet processing of Textiles. The origin, chief properties and methods of application of adhesives, softeners, weighting substances, deliquescent and antiseptic substance used in sizing and finishing and simple tests to determine the purity and value of these substance. WEAVING TECHNOLOGY - II LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 6 PR / TW / VIVA : 100 marks TOTAL : 9 Total : 200 marks Multiple Box Motions. Jacquard shedding motions with Tie ups. Selvedge motions. Special loom attachments for weaving fancy fabrics ( Terry Reed Motions. Pick at Will motions. Leno weaving etc.) Practical: Fixing and Timings of different parts of Dobby mechanisms. Weaving of Fancy Fabrics on Box Looms and Dobby Looms. SPINNING TECHNOLOGY - II LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: 6 PR / TW / VIVA : 100 marks TOTAL : 9 Total : 200 marks Preparation for Combing: Conventional and Modern Machines. Combers: Conventional and Feature of Modern Combers. Draw Frames: Principles and object of Drawing. Effect of Doubling by Rollers. Roller Setting. Control for regularity. Modern Draw Frames.

Flyer Frames: Objects. Principles of drafting and winding. Mechanism of Flyer Frame. Short- process Spinning. Theory of Epicyclic wheel trains and differential motions. D-215 MECHANICS OF TEXTILE MACHINERY LECT. : 3 PRACT.: -TOTAL : 3 Methods of Drive Transmission, Belt drive, Rope

Paper (3 Hrs.) : 100 marks PR / TW / VIVA : -Total : 100 marks drive, Gear drive etc. Advantages and

disadvantages of each, Examples on drive transmission. Different types motion- Linear and Rotary. Relation between them examples. Acceleration and Retardation examples. Force Mass and Momentum examples. Relation between Force and Work done and Power Examples. Parallelogram of Forces. Resultant Force when more than one force is acting examples. D-225 FACTORY MANAGEMENT: LECT. : 3 Paper (3 Hrs.) : 100 marks PRACT.: -PR / TW / VIVA : -TOTAL : 3 Total : 100 marks 1. Evolution of the Factory System of Production. 2. Social and Economic effects of Industrialisation. 3. Meaning of the term " Factory" Location and Factory layout of a Factory. 4. Procedure for setting up a Factory. 5. Factory Organisation - Types of Basic Structures. 6. Management Principles. 7. Operational Management ( Formulation of Policies plans, Procedures, Rules and Basic Office Management Principles) 8. Main provisions of: • The Factories Act. • The Industrial Disputes Act. • The Indian Trade Unions Act. F S OF D.T.T.- III Lect. + Tu. Practical Total

: 2 + 1 per week : 6 per week : 9 per week

SPINNING TECHNOLOGY – III Paper (3 hrs) pract. /TW/Viva Total

: 100 marks : 50 marks : 150 marks

RING SPINNING TECHNOLOGY: • Introduction to Spinning, Objects of spinning • Classification of spinning machines, Features of ring frame and its construction, function of important parts and passage of material • Principle of twisting and winding in ring spinning, Type of ring and traveler, Yarn Twist level, Twist Direction • Ring frame spindle, its construction and spindle drives • Drafting system, types and functions • Balloon Theory and Balloon control rings • Variable speed spinning, productive efficiency, yarn piecing, economics of spinning etc. • Ring frame package formation, building mechanism, automatic doffing • Yarn faults, causes and remedies, package faults and causes and remedies

• Performance assessment and productivity of ring spinning • Snap study on ring frame • Routine maintenance of ring frame • Environmental aspects of spinning section and ambient conditions YARN FOLDING: • Objects of yarn folding, folded yarn, cabled yarns • S on Z yarns, Z on Z yarns, fancy yarns • Yarn folding machines, parallel winder, TFO machines • Dry doubling, wet doubling and fancy doubling • Ring doubler: Ring - traveller, package formation etc. • Production technology of folded yarn and resultant yarn count MODERN SPINNING: • Introduction to modern spinning methods, characteristics of these yarns • Open End Spinning, Basic principle, Rotor spinning, Machine and Process specifications • Friction spinning principle and types of friction spinning machines and specifications • Air Jet Spinning • Other developments in spinning PRACTICAL: Based on above theory TEXT/ REFERNCES: 1. A practical guide to ring spinning Vol.4, The Textile Institute : W. Klein 2. Spun yarn Technology : Eric Oxtoby 3. Manual of cotton spinning, Vol.4, The Textile Institute : Butterworth 4. Essential elements of practical cotton spinning : T. K. Pattabhiram 5. Textile yarns : B. C. Goswami 6. Process Control in Spinning : A. R. Garde 7. Ring frames / Doubling Spinning Tablets VI & VII, TAI Publications : A. R. Garde 8.. Rotor spinning : R. Nield 9. Practical Open End Spinning : Anant S. haran halli 10. New Spinning System Vol. 5, The Textile Institute : W. Klein 11. Spinning of man made fibre & blends on cotton spinning system : K. R. Salhotra 12. Man made fibres and their processing, Vol.6, The Textile Institute : W. Klein

TEXTILE TESTING – I ) Lect. +Tu. : 2+1 per week 100 marks Practical :4 per week Total : 7 per week : 150 marks • • • • • • • • • •

Paper (3 Hrs.) Pract. / TW / Viva Total

: :

50 marks

Need of Statistics in Textile Testing Analysis of data: Mean, Median, Mode, Percentage Mean Range, Standard Deviation, percentage Coefficient of variation, correlation Interpretation of Data: T –test, F-test Sampling: Types of sampling Methods Fibre Properties: Length, Fineness, Maturity, Strength, Crimp, Trash, Moisture Regain, Moisture content, Their importance in yarn manufacturing process and measures Standard atmospheric conditions, their importance, at the production process Limitations of conventional testing/need of unconventional method of testing Introduction to HVI, AFIS, their working and advantages Correlation between measured value of fibre properties and expected yarn performance Identification of textile fibres, Introduction to chemical testing of fibres

PRACTICAL: Based on above theory TEXT/REFERENCE: 13. Principle of textile testing 14. Hand book of textile testing and quality control

: J. E. Booth : Grover and Hambay

15. Physical Testing Vol. I & II 4. Physical properties textile fibres

: Angpappan, R. Gopal Krishna, B. K. Keshwan : W. S. Morton and Hearle

16. Physical Textile Testing

: M. E. Ansus and W. W. Adams

17. Textile laboratory manuals

: Graner

18. Methods of test for textile 19. A.S.T.M. standards for textile material 20. I.S.I. handbook of textile testing

: B.S. Handbook No.11

WOVEN STRUCTURE – III Lect. +Tu. marks Practical Total

: 2+1 per week : 4 per week : 7 per week

Paper (3 Hrs.) (TW only) Total

:

:

100

50 marks : 150 marks

Double Cloth, Multilayer fabric, Gauze and Leno, Weft pile fabric, Terry pile Structure, Warp pile fabrics PRACTICAL: Analysis of above weave, selection of yarn TEXT /REFERENCE: 1. Wastons’ Advanced Textile Design:

Z Grosicki

TEXTILE PRODUCTION PLANNING & COSTING Lect. +Tu. 100 marks Practical Total •

• • •

: 3+1 per week :

-----: 4 per week

Paper (3 Hrs.) Pract. / TW / Viva Total

: : ---: 100 marks

Preparation of process flow charts for various textile manufacturing processes using modern machinery, calculation of number of machines and quantity of raw material required for the order received for various types of yarns and fabric delivery time scheduling. SWOT analysis of Indian Textile Industry. Quality management of raw material Machine specification, dimension and lay out,. Plant humidification. Operative training. Elements of cost and cost structure in textile Industry, methods of costing (gist only) marginal costing and cost volume profit analysis, with textile related numericals. Cost control in Textile industry.

TEXT / REFERENCE:

2. 3.

Weaving : Machines, Mechanism &Management Sriramulu Textile Manufacturing Cost Accounting

4. 5.

Technical Brochures from machinery manufacturers Student should visit industrial unit/s to get acquired with practical aspects

1.

: Dr. M. K. Talukdar, Prof. : M.G.Kulkarani: : V. K .Saxsena, V. D. Vashist

KNITTING Lect. +Tu. 100 marks Practical Total 100 marks • •

: 2+1 per week

Paper (3 Hrs.)

: -----: 3 per week

Pract. / TW / Viva Total

: :

----:

Introduction to Knitting, Types of knitting machines Weft Knitting: Basic weft knit structures, weft knitting machines, float stitches and their knitting, Designing of weft knit structures Warp Knitting: Classifications, brief introduction to warp knitting machines

•

TEXT / REFERENCE: 1. 2.

Knitting Technology Knitting Technology

: David J. Spencer : D.B. Ajgaonker S.S OF D.T.T. - III YARN PREPARATION – II

Lect. +Tu. : 2+1 per week : 100 marks Practical : 4 per week Total : 7 per week 150 marks

Paper (3 Hrs.) Pract. /TW / Viva Total

:

50 marks :

Automatic winding: Introduction, Classification, Salient features of large group winder and small group winder, Details modern automatic winding machine Sizing: Introduction, sizing machines ( creel, size box, drying, drying splitting and winding section) Size box ( conventional and features of modern size , temperature and level control, sizing ingredient ( adhesive, softener lubricants, antiseptic, antistatic etc.) Drying, some recipe, size preparation PRACTICAL: Based on above theory

TEXT /REFERENCE: 1. Sizing: machine, methods, materials 2. Warping and Sizing 3. Warp Sizing Technology

: D. B. Ajgaonkar, Talukdar, Wadekar : BTRA : J. B. Smith

WEAVING TECHNOLOGY-III Lect. +Tu. 100 marks Practical 50 marks Total 150 marks

: 2+1

per week

Paper (3 Hrs.)

:

: 4

per week

Pract. / TW / Viva

:

: 7

per week

Total

:

•

Cop changing and shuttle changing mechanism on automatic looms with various weft feelers Introduction to shuttle less looms Projectile weaving machines – Introduction – picking cycle of Sulzer projectile looms – other details like picking mechanism, beat up mechanism Rapier weaving machines – Introduction – classification - Types of rapier, rapier driving, rapier heads Air Jet weaving machines – Introduction – stage wise development of air jet weaving – Various elements of air jet picking – Air Jet weft insertion system Water Jet weaving - Introduction – Water Jet weft insertion system – Dewatering system Weaving of filament yarns Introduction to weaving machines

• • • • • • •

PRACTICAL: Study of automatic looms and shuttle less looms of the weaving laboratory TEXT / REFERENCE: 1. Weaving Machines, Mechanisms, and Management Prof. Sriramulu, 2. Shuttle less weaving mechanisms Vladimir Svaty 3. Principles of Weaving

: Marks & A. T. C. Robinson

4.

Handbook of Weaving

: S. Adanur

5.

Automatic Weaving Machinery & Mechanisms for Special effects : K. K. Murthy

: Dr. M. K. Talukdar, : Oldrich Talvasek,

TEXTILE TESTING – II Lect. +Tu. 100 marks Practical marks Total marks

: 2+1 per week : 4

per week

: 7

per week

Paper (3 Hrs.) Pract. / TW / Viva

: :

Total

Yarn: (1) Count and its measurement& Conversion (2) Twist and its measurement (3) Evenness and its measurement (4) Strength and its measurement Fabric: (a) Dimensions, weight/ sq.m, yarn count, ends per inch, picks per inch Measurement of (b) Tensile strength (Strip test and Grab test) (c) Tearing strength (d) Bursting strength (e) Stiffness (f) Crease recovery (g) Drape (h) Wear and abrasion (i) Pilling (j) Air permeability A brief outline of latest instruments used in the industry, Introduction to Kawabata Eva. Sys. (KES) PRACTICAL: Based on above theory

50 : 150

TEXT / REFERENCE: 1. Principle of textile testing : J. E. Booth 2. Hand book of textile testing and quality control : Grover and Hambay 3. Physical testing vol. I & II Keshwan 4. Physiacl properties textile fibres . 5. Physical Textile Testing : 6. Textile laboratory manuals

:Angpappan,

7. 8. 9. 10.

: B.S. Handbook No.11 : J.P.Sheivel

Methods of test for textile Textile Testing A.S.T.M. standards for textile material I.S.I. handbook of textile testing

R.

Gopal

: Krishna,

B.K.

: W.S. Morton and Hearle :M.E.Ansus and W.W.Adams : Graner

MANUFACTURED FIBRE PROCESSING Lect. +Tu. : 3+1 per week Paper (3 Hrs.) : 100 marks Practical : -----Pract. / TW / Viva : ----Total : 4 per week Total : 100 marks General: • Post spinning operations: drawing, Texturising, twisting, staple fibre production, tow to top conversion, etc. • Processing of manufactured fibres and their blend on staple spinning systems (viz. cotton spinning system, worsted spinning system). • Developments in main synthetic fibres. • Speciality fibre/fibres for technical applications. • Spun bonded non-woven manufacture. Texturising: • Concept and classification of Texturising, Different methods of texturising: False Twist, Air Jet, Stuffer Box, Edge Crimping, Gear Crimp, Knit-de-Knit etc. • False Twist Texturising: Principle, Types of heaters and twisters, stretch and modified stretch yarn. Draw texturising and its types. Machine settings, effect of variables on yarn quality: (a) Material variables (b) Machine variables (c) Process variables (concept of 4T’s) • Air Jet Texturising: Principle, process, classification, various types of nozzles, various air jet texturising machines. • Quality control of textured yarns. TEXT / REFERENCE: 1. Textile Fibres : H.V.S. Murthy 2. A Guide to Crimping / Texturising technology :Dr. M.V.S. Rao & A.B. Talele 3. Spinning of man-made and blends on cotton system : K. R. Salhotra 4. Synthetic fibres : A. A. Vaidya 5. Manufactured Fibre Technology : V. B. Gupta & V.K. Kothari 6. Man made Fibres and thier Processing Vol. 6, The Textile Institute : W. Klein

Lect. +Tu. 100 marks Practical

GARMENT MANUFACTURING TECHNOLOGY : 2+1 per week Paper (3 Hrs.) :

------

Pract. / TW / Viva

: :

-----

Total marks

:

3 per week

Total

:

100

Basic Garment Manufacturing process: Basic process details of Patterning, Marker Planning, Cutting and Sewing operations along with type of seams and stitches. Different flow charts for making up process of Shirt, Trouser, Jeans etc. Management concept for Garment Industries: Quality checks required for different type of Garment, Fabric and Garment Defects and Fabric Grading System. SWOT analysis of Garment Industry, Export trends, Production planning and Merchandising concept. Basic Productivity Calculation and Costing of Garment. TEXT / REFERENCE:: 1. The Technology of clothing manufacturing Latham 2. Introduction to Clothing Manufacturing 3. Fundamentals of Clothing and Textile 4. Managing productivity in the apparel Industry 5. Garment Manufacturing: NCUTE Publication *************

: Harold Carr and Barbara : Gerry Cooklin : Mary Evans : Rajesh Bheda : NCUTE Publication