citing articles

CITING ARTICLES Below are Citations as they appear after an Internet search. They bear NO relation (professional or otherwise) to the work included in the publications.

Panagiotis Frantzis - Publications - ResearchGate http://www.researchgate.net/profile/Panagiotis_Frantzis2/publications/

A) Adhesive Bonding Technology

1) P. Frantzis (1989), ‘‘Environmental Attack on Adhesive Joints: A Fracture Mechanics Approach’’, PhD Thesis, Imperial College

Books about Materials Engineering, Record 2001 to 2040 http://materials.ottz.com/books-0051.shtml

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2) P. Frantzis (2003), “Adhesive Bonding Technology”, Greek Open University, Construction Management, Volume Γ: Construction Materials and Machinery, Chapter 8, pages 9-10, 163-197, 264-269, 277-278, 280-287 (in Greek). 1. TÂ¯ÓÈÎ‹ ÙË˜ K·Ù·ÛÎÂ˘‹˜ class.eap.gr/.../DXT51_C_Domika_Ylika_%26_Exoplismos_Kataske... 2. Toggle Navigation DataCite Search Works People Data Centers ... https://search.datacite.org/works/10.13140/2.1.3420.1926 Panagiotis Frantzis Book published 2003 via Unpublished https://doi.org/10.13140/2.1.3420.1926

3) P. Frantzis (1998), “Environmental Attack on Adhesive Joints. Part I: Test Equipment”, JSME (Japan Society of Mechanical Engineers) International Journal, Series A, Vol. 41, No. 2, page 231-242.

1. ZY Lu and R Hentschke 2002, Computer simulation study on the swelling of a model polymer network by a chainlike solvent, American Physical Society, Phys. Rev. E, Volume 65, Issue 4 2. You Min, Zheng Xiaoling, and Xiong Weihao, Progress in research on epoxy resins used in composites and structural adhesives, Journal of Materials Review, 2002, 16(6) 3.

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, 2002 http://file.lw23.com/6/63/634/634c54c3-2764-4d21-9ec7-67b29407e0c7.pdf 4. S Emrich, Untersuchungen zum Einfluss von Oberflächenchemie und-morphologie auf die Langzeitbeständigkeit geklebter Aluminiumverbunde, 2003 d-nb.info 5. J Pahnke,

2006 ,

6. Yongxia Hua, Doctor of Philosophy 2006, Modelling environmental degradation in adhesively bonded joints, School of Engineering, University of Surrey, UK 7. NA Vickey, MSc Thesis 2007, Development of an advanced adhesion test for polymer interfaces, University of Maryland, Department of Mechanical Engineering 8. Onjun, O., Pearson, R.A., Effect of silane adhesion promoters on subcritical debonding of epoxy/glass interfaces after hygrothermal aging, Journal of Adhesion, 2010 9. https://www.researchgate.net/profile/Panagiotis_Frantzis2/?ev=hdr_xprf

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http://ci.nii.ac.jp/nrid/9000004563004

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http://radaris.asia/p/Takayuki/Kusaka/

12. Catalogo Articoli (Spogli Riviste) http://serials.unibo.it/cgi-ser/start/it/spogli/dss.tcl?authors=%22FRANTZIS+P%22&language=ITALIANO 12. Viana, G., Costa, M., Banea, M.D. "Water diffusion in double cantilever beam adhesive joints" (2017) Latin American Journal of Solids and Structures 14 (2017) 188-201

4) P. Frantzis (1998), “Environmental Attack on Adhesive Joints. Part II: Locus of Failure”, JSME (Japan Society of Mechanical Engineers) International Journal, Series A, Vol. 41, No. 3, page 395-404. 1. https://www.researchgate.net/profile/Panagiotis_Frantzis2/?ev=hdr_xprf

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3. Catalogo Articoli (Spogli Riviste) http://serials.unibo.it/cgi-ser/start/it/spogli/dss.tcl?authors=%22FRANTZIS+P%22&language=ITALIANO

5) P. Frantzis (1998), “Environmental Attack on Adhesive Joints. Part III: Mechanisms of Failure”, JSME (Japan Society of Mechanical Engineers) International Journal, Series A, Vol. 41, No. 3, page 405-415. 1. O J Lewis, The joints of the evolving foot. Part III: The fossil evidence, Journal of Anatomy, 1980, Volume 131, Issue Pt 2, Publisher: Blackwell Publishing, Pages 275-298, Available from www.pubmedcentral.nih.gov (cited as Related Research) 2. G Fernlund, and J K Spelt, Failure load prediction of structural adhesive joints Part 1: Analytical method, International Journal of Adhesion and Adhesives, 1991, Volume 11, Issue 4, Pages 213-220, Available online 2003 (cited as Related Research) 3. G Dömötör and R Hentschke, 2004, Equilibrium swelling of an epoxy‐resin in contact with water – A molecular dynamics simulation study, Macromolecular Theory and Simulations, Volume 13, Issue 6, pages 506–511. 4. K Wapner and G Grundmeier, 2004, Spatially resolved measurements of the diffusion of water in a model adhesive/silicon lap joint using FTIR-transmissionmicroscopy, International Journal of Adhesion and Adhesives, Volume 24, Issue 3, pages 193-200 5. AG Magalhães and MFS F de Moura, Application of acoustic emission to study creep behaviour of composite bonded lap shear joints, NDT & E International, Volume 38, Issue 1, January 2005, pages 45-52 6. Wiese, T., Hahn, O., Can untempered reaction adhesives cope with CKD production? What influence do different climates have on standard applied adhesive systems? | Sind Ungehärtete Reaktionsklebstoffe der CKD-fertigung Gewachsen? Welchen Einfluss haben verschiedene Klimata auf standardmäβig eingesetzte Klebstoffsysteme? Adhaesion Kleben und Dichten, 2005

7. K Wapner, M Stratmann and G Grundmeier, 2006, In situ infrared spectroscopic and scanning Kelvin probe measurements of water and ion transport at polymer/metal interfaces, Electrochimica Acta, Volume 51, Issue 16, pages 3303-3315 8.

9. Ralf Posner, Dissertation 2009 zur Erlangung des Grades eines Doktors der Naturwissenschaftender Fakultät für Naturwissenschaften der Universität Paderborn, Combined Spectroscopic and Electrochemical Studies of Ion Transport and Corrosive de-Adhesion Processes at Polymer/Oxide/Metal Interfaces, Gedruckt mit Genehmigung der Fakultät für Naturwissenschaften der Universität Paderborn 10. https://www.researchgate.net/profile/Panagiotis_Frantzis2/?ev=hdr_xprf

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12. Catalogo Articoli (Spogli Riviste) http://serials.unibo.it/cgi-ser/start/it/spogli/dss.tcl?authors=%22FRANTZIS+P%22&language=ITALIANO 13. A.M. Amaro, P.N.B. Reis, M.F.S.F. de Moura, "Damage detection on laminated composite materials using several NDT techniques", Non-Destructive Testing and Condition Monitoring, 12/2011, 54(1):14-20 14. Cong, P., Hao, H., Zhang, Y. "Investigation of diffusion of rejuvenator in aged asphalt" (2016) International Journal of Pavement Research and Technology

6) P. Frantzis (2008), “Durability of Adhesive Joints Made Underwater”, Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol. 20, No 10, page 635-639.

1. http://www.Download - 5Durability of Adhesively Bonded Structures http://www.ismithers.net/downloads/chapters/Update on Engineering.pdf 2. http://www.highbeam.com/doc/1G1-189262796.html New findings from P. Frantzis and co-authors in the area of civil engineering published

3. http://www.verticalnews.com/premium_newsletters/Engineering-Business-Journal/200911-18/67759EBJ.html

New findings from P. Frantzis and co-authors in the area of civil engineering published

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http://pubget.com/search?q=authors%3A%22P%20Frantzis%22

5. Russell J. Stewart, Todd C. Ransom and Vladimir Hlady, Natural underwater adhesives, Journal of Polymer Science Part B: Polymer Physics, Volume 49, Issue 11, pages 757–771, 2011 6. https://www.researchgate.net/profile/Panagiotis_Frantzis2/?ev=hdr_xprf 7. Stefan Birkenheuer, Alternative, environmentally friendly pretreatments on multimetal constructions by organo-silane-based conversion layers, DISSERTATION,

PADERBORN 2012 http://d-nb.info/1042992118/34 8. Bai Xuefeng, Progress in structural adhesive bonding durability of the joints. Chemistry and Adhesion 1, 2014, pages 50-54 http://www.cqvip.com/qk/95912x/201401/48705859.html 9. Sanchita.S.Nawale, Sangram Chalukya and S.V.Admane, Comparative Analysis and Bending Behavior of Cold form Steel with Hot Rolled Steel Section, American Journal of Engineering Research (AJER), 2014, Volume-03, Issue-05, pp-255-261 www.ajer.org 10. Jaimie-Leigh Jonker, PhD Thesis, September 2013, "The natural adhesive of the goose barnacle - The functional morphology and chemistry of the adhesive gland and an investigation of the adhesive proteins", School of Natural Sciences and Zoology, National University of Ireland, Galway, http://hdl.handle.net/10379/5041 https://aran.library.nuigalway.ie/bitstream/.../JLJonker_PhDthesis_Nov2013.pdf

7) P. Frantzis (2009), “Predicting the Environmental Lifetime of Adhesive Joints under Laboratory Conditions”, Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol. 21, No 11, page 637-642. 1. http://www.highbeam.com/doc/1G1-211896653.html New civil engineering study findings have been published by P. Frantzis and colleagues

2. http://www.verticalnews.com/premium_newsletters/Engineering-Business-Journal/200911-18/67759EBJ.html

New civil engineering study findings have been published by P. Frantzis and colleagues

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4. Redux (adhesive) http://www.reference.com/browse/steel+adhesive (cited as Related Article) 5. https://www.researchgate.net/profile/Panagiotis_Frantzis2/?ev=hdr_xprf

8) P. Frantzis (2013), “Durability of Underwater-Made Butt Steel Adhesive Joints under Laboratory Conditions: Theoretical Model.” Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol. 25, No 10, page 1558-1562. 1. Adhesive joints http://e-libraryusa.com/results.php?query=%22Adhesive+joints%22&fieldcode=DE

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New Findings in Civil Engineering Described by P. Frantzis and Co ... www.pubz.me/PubzMe/pubzme/PubzMeAPI?app=PubzMe...i... 2013 DEC 4 -- By a News Reporter-Staff News Editor at Journal of Engineering -A newstudy on Civil Engineering is now available. According to news ...

3.

http://www.verticalnews.com/premium_newsletters/Journal-ofEngineering/2013-12-04/66038EN.html

Civil Engineering - New Findings in Civil Engineering ... - VerticalNews www.verticalnews.com/premium_newsletters/Journal-of-Engineering/20... Dec 4, 2013 - 2013 DEC 4 (VerticalNews) -- By a News Reporter-Staff News Editor atJournal of Engineering -- A new study on Civil Engineering is now ...

B) Fibre Composites Technology

1) P. Frantzis and R. Baggott (1994), “Factors Influencing Magnesia Phosphate Slurry Infiltration into Steel Fibre Arrays”, Conference paper in Fibre Reinforced Cement and Concrete, University of Sheffield Workshop, 46-61 https://getinfo.de/app/Factors-Influencing-Magnesia-Phosphate-SlurryInfiltration/id/BLCP%3ACN009397358

2) P. Frantzis (2003), “Cement Fibre Composites”, Greek Open University, Construction Management, Volume Γ: Construction Materials and Machinery, Chapter 7, pages 8-9, 127-162, 258-264, 276-277, 280-287 (in Greek). 1. TÂ¯ÓÈÎ‹ ÙË˜ K·Ù·ÛÎÂ˘‹˜ class.eap.gr/.../DXT51_C_Domika_Ylika_%26_Exoplismos_Kataske... 2. Toggle Navigation DataCite Search Works People Data Centers ... https://search.datacite.org/works/10.13140/2.1.3420.1926 Panagiotis Frantzis Book published 2003 via Unpublished https://doi.org/10.13140/2.1.3420.1926

3) P. Frantzis and R. Baggott (2002), UK Patents

Tensile bond test of steel fibre reinforced concreteUnited Kingdom Patent 2356057-A http://patent.ipexl.com/GB/2356057-a.html

Bond durability test of steel fibre reinforced concrete-United Kingdom Patent 2356058-A http://www.directorypatent.com/GB/2356058-a.html

4) P. Frantzis and R. Baggott (2000), “Bond between Reinforcing Steel Fibres and Magnesium Phosphate/Calcium Aluminate Binders”, Cement & Concrete Composites, Vol. 22, page 187-192. 1. Jumpei Ando, Simultaneous Production of Nickel Matte and Calcium Magnesium Phosphate, Ind. Eng. Chem., 1959, 51 (10), pp 1267-1270 (cited as Related Paper) 2. Ozturk, B. and Turkdogan, E. T., Equilibrium S Distribution Between Molten Calcium Aluminate and Steel, Materials Science and Technology, 18(6), 1984, pp. 306-310(5) DOI: http://dx.doi.org/10.1179/030634584790419962 (cited as Related Paper) 3. V. Laws, A. A. Langley and J. M. West, The Glass Fibre/Cement Bond, Journal of Materials Science, 21(1), 1986, 289-296 http://www.researchgate.net/publication/225891892_the_glass_fibrecement_bon d (cited as Similar Publication) 4. Nemkumar Banthia and Jean-Francois Trottier, Micromechanics of Steel Fiber Pull-Out: Rate Sensitivity at very Low Temperatures, Cement and Concrete Composites, 1992 (cited as Similar Publication) http://www.researchgate.net/publication/222012280_Micromechanics_of_steel_fi ber_pull-out_rate_sensitivity_at_very_low_temperatures 5. P.J.M. Bartos and M. Duris, Inclined tensile strength of steel fibres in a cementbased composite, Composites, 25(10), 1994, pp 945–952, Available online 2003 (cited as Similar Publication)

6. Tetsushi Kanda and Victor C. Li, Interface Property and Apparent Strength of High-Strength Hydrophilic Fiber in Cement Matrix, Journal of Materials in Civil Engineering 10 (5), 1998 (cited as Related Research) 7. H. Cuypers, J. Wastiels, P. Van Itterbeeck, E. De Bolster, J. Orlowsky and M. Raupach, Durability of Glass Fibre Reinforced Composites Experimental Methods and Results, Composites Part A: Applied Science and Manufacturing, 2006, 37(2), pp 207-215 (cited as Item of Interest) 8. P Purnell, Degradation of fibre-reinforced cement composites in: Durability of concrete and cement composites, Edited by C.L. Page and M.M. Page, pp. 316-363, Woodhead, 2007

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10. CAPÍTULO 2: ANTECEDENTES BIBLIOGRÁFICOS (CHAPTER 2: BACKGROUND BIBLIOGRAPHIC) sedici.unlp.edu.ar/ARG-UNLP-TPG0000000338/6691.pdf

11. M. R. Santi, D. H. Cox and A. Guidotti, Familial Hypocalciuric Hypercalcaemia I: Renal Handling of Calcium, Magnesium and Phosphate, Clinical Endocrinology, 2008 (1985), 22(1), pp 103-116 (cited as Related Paper)

12. Alastair J Hutchison, Oral Phosphate Binders, Kidney International, 2009 (cited as Related Paper) 13. D.G.Aggelis, D.V.Soulioti, E. Gatselou, N. M. Barkoula, A. D. Paipetis and T. E. Matikas, Effect of fiber surface conditioning on the acoustic emission behavior of steel fiber reinforced concrete, Proceedings of SPIE 7983, 79830V, The International Society for Optical Engineering, doi:10.1117/12.880354, Non-destructive Characterization for Composite Materials, Aerospace Engineering, Civil Infrastructure, and Homeland Security, H. Felix Wu, Editor, 2011 14. D.G.Aggelis, D.V.Soulioti, N. M. Barkoula, A. D. Paipetis and T. E. Matikas, Influence of the fiber chemical coating on the fracture behavior of steel fiber concrete measured by acoustic emission, Proceedings of the 5th International Conference on Emerging Technologies in NDT (Non-Destructive Testing), Ioannina, Greece, 2011 15. D.G.Aggelis, D.V.Soulioti, N. M. Barkoula, A. S. Paipetis and T. E. Matikas, Influence of fiber chemical coating on the acoustic emission behavior of steel fiber reinforced concrete, doi:10.1016/j.cemconcomp.2011.07.003, Cement and Concrete Composites, 2011 16. Xiang-Rong Caib, Shi-Lang Xua, and Bai-Quan Fuc, A statistical micromechanical model of multiple cracking for ultra high toughness cementitious composites, Engineering Fracture Mechanics, 78(6), 2011, pp 1091–1100 Available on line 2011 17. D.G.Aggelis, D.V.Soulioti, N. M. Barkoula, A. D. Paipetis and T. E. Matikas, Influence of the fiber chemical coating on the fracture behavior of steel fiber concrete measured by acoustic emission, page 111-115

18. http://www.researchgate.net/publication/229107557_Bond_between_reinforcing_steel_f ibres_and_magnesium_phosphatecalcium_aluminate_binders?ev=sim_pub

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http://scholar.qsensei.com/content/4tvv7

20. http://trid.trb.org/view.aspx?id=668487

21. OhioLINK Journal Article Locator http://journals.ohiolink.edu/ejc/search.cgi?q=authorExact:%22Frantzis%2C%2 0P.%22

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http://www.docin.com/p-98301578.html

23. Enhancements in durability through fibre and matrix modification ... © All Rights Reserved Civil Engineering Lectures, Books, Notes 2013 http://lecture.civilengineeringx.com/c/dccc/ 24. Images for cement frantzis https://www.google.gr/search?q=cement+frantzis&sa=N&rlz=1C2VSNC_enGR558GR558& tbm=isch&tbo=u&source=univ&ei=SzyWUpaoDsi6ygP18oCADQ&ved=0CFMQsAQ4Cg&biw =988&bih=618

25. Ri-On Oh, Dong-Hyun Kim, Chan-Gi Park, Durability performance of latex modified nylon fiber reinforced concrete for precast concrete pavement applications, Indian Journal of Engineering & Materials Science, Vol. 21, 2014, page 49-56 26. Fiber reinforced magnesium phosphate cement matrix composites in structural repair and strengthening areas of application prospects, Release Date: 19/05/2014 China Thesis http://www.xzbu.com/1/view5314557.htm

5) P. Frantzis and R. Baggott (1997), “Rheological Characteristics of Retarded Magnesia Phosphate Cement”, Cement and Concrete Research, Vol. 27, No. 8, page 1155-1166.

1. http://www.deepdyve.com/lp/elsevier/rheologicalcharacteristics-of-retarded-magnesia-phosphate-cement-E6eM0blfZI 2. B E I Abdelrazig, J H Sharp, P A Siddy, and B El-Jazairi, Chemical Reactions in Magnesia-Phosphate Cement, Proceedings of The British Ceramic Society, 1984, p 141-154, Available from md1.csa.com (cited as Related Research) 3. B.E.I. Abdelrazig, J.H. Sharp and B. El-Jazairi, The Chemical Composition of Mortars Made From Magnesia-Phosphate Cement, Cement and Concrete Research, 18(3), 1988, pp 415–425 (cited as Related Paper) http://en.zl50.com/20071110136768906.Html 4. Quanbing Yang, Beirong Zhu, Shuqing Zhang, and Xueli Wu, Properties and Applications of Magnesia-Phosphate Cement Mortar for Rapid Repair of Concrete, Cement and Concrete Research, 30(11), 2000, pp. 1807–1813 (cited as Related Paper) 5. Hall, D.A., Stevens, R. and El-Jazairi, B., The Effect of Retarders on the Microstructure and Mechanical Properties of Magnesia-Phosphate Cement Mortar, Cement and Concrete Research, 31(3), 2001, page 455-465 (cited as Related Paper) 6. Hipedinger NE, Scian AN, Aglietti EF, Magnesia-Phosphate Bond for Cold-Setting Cordierite-Based Refractories, Cement and Concrete Research 32(5), 2002, pp. 675-682

7. Soudee E. and Pera J., Influence of Magnesia Surface on the Setting Time of Magnesia-Phosphate Cement, Cement and Concrete Research, 32 (1), 2002, pp. 153-157 (cited as Related Paper) http://en.zl50.com/12011102117672937.Html 8. CAPÍTULO 2: ANTECEDENTES BIBLIOGRÁFICOS (CHAPTER 2: BACKGROUND BIBLIOGRAPHIC) sedici.unlp.edu.ar/ARG-UNLP-TPG0000000338/6691.pdf

9. M Georgescu, A Puri, and J Paceagiu, Magnesia Phosphate Binding Materials Composite Materials Based on the Magnesia-Phosphate Binding Matrix, Revue Roumaine De Chimie, 2004, 49(8), Pages: 681-688 (cited as Related Research) 10. Hipedinger NE, Scian AN, Aglietti EF, Magnesia-Ammonium Phosphate-Bonded Cordierite Refractory Castables: Phase Evolution on Heating and Mechanical Properties, Cement and Concrete Research, 34, pp 157–164, 2004 (cited as Item of Interest) 11. Daniel Boismenu, Orval Mamer, Line Ste-Marie, Luc Vachon and Jane Montgomery, Effect of Storage Time on the Rheological Behavior of Oil Well Cement Slurries, Journal of the American Ceramic Society, 2005, Volume 74, Issue 5945-949 (cited as Related Research) 12. Banfill PFG, Rheology of Fresh Cement and Concrete, Rheology Reviews, The British Society of Rheology, 2006, pp 61-130

13. Magnesia in Cement (cited as Related Paper) http://www.lw20.com/2008111496404281.Html 14.

15. Lee, Jong-Kyu, Soh, Jung-Sub, Chu, Yong-Sik, Song, Hun, and Park, Ji-Sun, Evaluation of magnesia cement using MgCO3 and serpentine, Korean Journal of Materials Research, Volume 22, Issue 11, 2012, pp 598-603

16. OhioLINK Journal Article Locator http://journals.ohiolink.edu/ejc/search.cgi?q=authorExact:%22Frantzis%2C%2 0P.%22

17. Catalogo Articoli (Spogli Riviste) http://serials.unibo.it/cgi-ser/start/it/spogli/dss.tcl?authors=%22FRANTZIS+P%22&language=ITALIANO 18. http://www.concrete.net.au/resorce_centre/details.php?table=books&id=185390

19. Wuttichai Samaiklang, Mechanical and hydraulic performance of cement grouts from 5 suppliers in Thailand, Thesis for the Degree of Master of Engineering in Geotechonolgy, Suranaree University of Technology, 2012 20. http://phdtree.org/pdf/30303824-rheological-characteristics-of-retarded-magnesiaphosphate-cement/

21. Formosa, J. , Lacasta, A.M. , Navarro, A., Magnesium Phosphate Cements formulated with a low-grade MgO by-product: Physico-mechanical and durability aspects, Construction and Building Materials, 2015. 22. Lee, J.-K. , Soh, J.-S., Effect of inorganic admixture for magnesia cement using MgCO3 and serpentine, Korean Journal of Materials Research, Vol.25, No.2, 7580, 2015. 23. Formosa, J., Lacasta, A.M., Navarro, A. "Magnesium Phosphate Cements formulated with a low-grade MgO by-product: Physico-mechanical and durability aspects" (2015) Construction and Building Materials 24. Lee, J.-K., Soh, J.-S. "Effect of inorganic admixture for magnesia cement using MgCO3 and serpentine" (2015) Korean Journal of Materials Research 25. Lee, J.-K., Soh, J.-S. "Performance of magnesia cement using MgCO3 and serpentine" (2016) Journal of the Korean Ceramic Society

6) P. Frantzis and R. Baggott (1996), “Effect of Vibration on the Rheological Characteristics of Magnesia Phosphate and Ordinary Portland Cement Slurries”, Cement and Concrete Research, Vol. 26, No. 3, page 387-395.

1. http://www.deepdyve.com/lp/elsevier/effect-of-vibration-onthe-rheological-characteristics-of-magnesia-TWT9xX0ZyS 2. R.F. Feldman and J.J. Beaudoin, Effect of Applied Stress on the Helium Inflow Characteristics of Hydrated Portland Cement, Cement and Concrete Research, 13(4), 1983, pp 470-476 (cited as Related Paper)

3. B.E.I. Abdelrazig, J.H. Sharp and B. El-Jazairi, The Chemical Composition of Mortars Made From Magnesia-Phosphate Cement, Cement and Concrete Research, 18(3), 1988, pp 415–425 (cited as Related Paper) http://en.zl50.com/20071110136768906.Html 4. J. Zhor and T.W. Bremner, Advances in Evaluation of Lignosulphonates as Concrete Admixtures, International Concrete Abstracts Portal, Special Publication, Vol. 179, 1998, pp 1011-1042 http://concrete.org/Publications/InternationalConcreteAbstractsPortal.aspx?m= details&i=6084 5. Banfill PFG, Yongmo X, Domone PLJ, Relationship between the rheology of unvibrated fresh concrete and its flow under vibration in a vertical pipe apparatus, Magazine of Concrete Research 51(3) 1999, pp. 181-190 6. PJM Bartos and DL Marrs, Paper 15, page 172: Development and testing of selfcompacting grout for the production of SIFCON, RILEM Proceedings 6: 3rd International RILEM Workshop on High Performance Fibre Reinforced Cement Composites (HPFRCC3), Edited by Hans Wolfgang Reinhardt and Antoine E. Naaman - 1999 - Technology & Engineering, The University of Paisley, Advanced Concrete & Masonry Centre, Scotland, UK, 1999

7. Giuseppe Calloni, Paolo D’Antona, and Nevio Moroni, A New Rheological Approach Helps Formulation of Gas Impermeable Cement Slurries, Cement and Concrete Research, 29(4), 1999, Pages 523–526 (cited as Related Paper) 8. Quanbing Yang, Beirong Zhu, Shuqing Zhang, and Xueli Wu, Properties and Applications of Magnesia-Phosphate Cement Mortar for Rapid Repair of Concrete, Cement and Concrete Research, 30(11), 2000, pp. 1807–1813 (cited as Related Paper) 9. Horng-Kai Jing, MSc Thesis 2001, Durability and rheology in sealing materials of cement grout for radioactive waste repository, National Central University, Department of Civil Engineering, Republic of China

10. Helge Hodne, Arild Saasen, Arthur B. O'Hagan, and Svein O. Wick, Effects of Time and Shear Energy on the Rheological Behaviour of Oilwell Cement Slurries, Cement and Concrete Research, 30(11), 2000, pp 1759–1766 Available on line 2001 (cited as Related Research) 11. Prabhakaran K., Ananthakumar S., and Pavithran C., Effect of Hydrolysed Aluminium Treatment on Rheological Characteristics of Alpha-Alumina Slurries, Journal of Materials Science, 36(19), 2001, pp. 4827-4831(5) (cited as Related Paper) 12. Hall, D.A., Stevens, R. and El-Jazairi, B., The Effect of Retarders on the Microstructure and Mechanical Properties of Magnesia-Phosphate Cement Mortar, Cement and Concrete Research, 31(3), 2001, page 455-465 (cited as Related Paper) 13. Hipedinger NE, Scian AN, Aglietti EF, Magnesia-phosphate bond for cold-setting cordierite-based refractories, Cement and Concrete Research 32(5), 2002, pp. 675682 14. Paul J Tikalsky, Della Roy, Barry Scheetz, and Tara Krize, Redefining Cement Characteristics for Sulfate-Resistant Portland Cement, Cement and Concrete Research, 2002, 32(8), pp 1239-1246 (cited as Related Paper) 15. Soudee E. and Pera J., Influence of Magnesia Surface on the Setting Time of Magnesia-Phosphate Cement, Cement and Concrete Research, 32 (1), 2002, pp. 153-157 (cited as Related Paper) http://en.zl50.com/12011102117672937.Html 16. CAPÍTULO 2: ANTECEDENTES BIBLIOGRÁFICOS (CHAPTER 2: BACKGROUND BIBLIOGRAPHIC) sedici.unlp.edu.ar/ARG-UNLP-TPG0000000338/6691.pdf 17. Ivan Odler, Special Inorganic Cements, Technology & Engineering, CRC Press, 2003 18. Daniel Boismenu, Orval Mamer, Line Ste-Marie, Luc Vachon and Jane Montgomery, Effect of Storage Time on the Rheological Behavior. of Oil Well Cement Slurries, Journal of the American Ceramic Society, Volume 74, Issue 5945-949, 2005 (cited as Related Research) 19. Sigurd Elz and Andreas Keller, Effect of Water Content on the Structure and Mechanical Properties of Magnesia-Phosphate Cement Mortar, Journal of the American Ceramic Society, 81(6), pp 1550-1556, 2005 (cited as Related Paper) 20. Banfill PFG, Rheology of fresh cement and concrete, Rheology Reviews, The British Society of Rheology, 2006, pp 61-130 21.

22. Jessie L. Miller, Effect of Phthalic Anhydride-Based Hyperbranched Polyesteramide on Cement Characteristics, Journal of Applied Polymer Science , 120(5), pp 3054-3064, 2011 (cited as Related Paper)

23. Magnesia in Cement (cited as Related Paper) http://www.lw20.com/2008111496404281.Html 24.

http://scholar.qsensei.com/content/2f1cn

25. OhioLINK Journal Article Locator http://journals.ohiolink.edu/ejc/search.cgi?q=authorExact:%22Frantzis%2C%2 0P.%22 26. Catalogo Articoli (Spogli Riviste) http://serials.unibo.it/cgi-ser/start/it/spogli/dss.tcl?authors=%22FRANTZIS+P%22&language=ITALIANO 27. Sandra Juradin, Goran Baloević, Alen Harapin, Impact of vibrations on the final characteristics of normal and self-compacting concrete, Materials Research, Print version ISSN 1516-1439, ahead of print Epub Dec 17, 2013, http://www.readcube.com/articles/10.1590/S1516-14392013005000201?locale=en

7) P. Frantzis (2006), “Effect of Early Age Temperature Rise on the Stability of Rapid Hardening Cement Fibre Composites”, Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol. 18, No. 4, 568575. 1. “Papers of Interest”, Journal of Bridge Engineering, 2006, 11(5), 516–516 http://ascelibrary.org/doi/abs/10.1061/(ASCE)1084-0702(2006)11%3A5(516) 2. Goretti Goikoetxeaundia, Oscar González, María Eugenia Muñoz, Juan José Peña and Anton Santamaría, Dynamic viscoelastic characterization of Bitumen/Polymer roofing membranes, Macromolecular materials and engineering, 292(6), pp 715– 722, 2007 (cited as Item of Interest) 3. E Magyari, Steady thermal regimes of a parallel-plane packed bed reactor with an organized structure, Chemical Engineering Journal, 2009, Elsevier

4. E Magyari, Linear stability analysis of the steady thermal regimes of a packed bed reactor with an organized structure, International Journal of Thermal Sciences, 2009, Elsevier

5. www-r.gluetext.com/content/r/rapid.../rapid-hardening_cement.html

6.


7. J. Annie Peter, N. Lakshmanan, P. Devadas Manoharan, Investigations on the Static Behavior of Self-Compacting Concrete Under-Reamed Piles, Journal of Materials in Civil Engineering, 2006 (18), 3, p.408-414 8. Linglin Xua, Peiming Wanga, Guofang Zhanga, Formation of ettringite in Portland cement/calcium aluminate cement/calcium sulfate ternary system hydrates at lower temperatures, Construction and Building Materials, 31, pp 347–352, 2012

8) P. Frantzis and R. Baggott (2003), “Transition Points in Steel Fibre Pull-Out Tests from Magnesia Phosphate and Accelerated Calcium Aluminate Cements”, Cement & Concrete Composites, Vol. 25, page 11-17. 1. Nemkumar Banthia, Temperature sensitivity of steel fibre pull-out from cement-

based matrices, Journal of Materials Science Letters, 03/1991; 10(8):448-450. DOI: 10.1007/BF00838346 (cited as Similar Publication) 2. Takao Ashikaga, Masayoshi Wada, Hiroshi Kobayashi, Masaaki Mori, Yoshio Katsumura, Hiroshi Fukui, Shinobu Kato, Michihiro Yamaguchi and Tasuku Takamatsu, Effect of the photocatalytic activity of TiO 2 on plasmid DNA 1, This article was communicated by the Mammalian Mutagenicity Study Group (MMS) of the Japanese Environmental Mutagen Society, Journal: Mutation Research-genetic Toxicology and Environmental Mutagenesis - MUTAT RES-GENET TOXICOL E M, Composites Science and Technology - COMPOSITES SCI TECHNOL, 466(1), pp. 1-7, 2000 3. Amitabh Deo and CT Sun, paper TM7, Effect of thickness of platelet on load transfer efficiency in platelet-reinforced composites, Proceedings of the Joint American Society for Composites/American Society for Testing and Materials Committee D30 - Nineteenth Technical Conference, Editors: Erian Armanios and James Reeder, Technology & Engineering, October 17-20, 2004, Atlanta, GA 4. CAPÍTULO 2: ANTECEDENTES BIBLIOGRÁFICOS (CHAPTER 2: BACKGROUND BIBLIOGRAPHIC) sedici.unlp.edu.ar/ARG-UNLP-TPG0000000338/6691.pdf

5.

6. Farhang Farahbod and Davood Mostofinejad, Experimental study of moment redistribution in RC frames strengthened with CFRP sheets, Composite Structures 2010,Vol.93(3):1168-1177 DOI:10.1016/j.compstruct.2010.10.004 http://www.jmonline.org/article/articleAction!showArticle.action?article.id=3797 99#fragment4 7. SR Pemberton, EK Oberg, J Dean, D Tsarouchas, AE Markaki, L Marston and TW Clyne, The fracture energy of metal fibre reinforced ceramic composites (MFCs), Composites Science and Technology, 71(3), 2011, pp 266-275 8. Zhenghong Tian, Jianming Yang and Jingwu Bu, Study on Bond Behavior of Magnesium and Potassium Phosphate Cement Matrix with Glass Fiber Bundle, Earth and Space 2012: Engineering, Science, Construction, and Operations in Challenging Environments, Edited by Kris Zacny, Ramesh B. Malla, and Wieslaw Binienda, Proceedings of the Thirteenth ASCE Aerospace Division Conference on Engineering, Science, Construction, and Operations in Challenging Environments, and the 5th NASA/ASCE Workshop On Granular Materials in Space Exploration, Pasadena, California, United States, April 15-18, 2012 9. http://www.researchgate.net/publication/229107552_Transition_points_in_steel_fibre_p ull-out_tests_from_magnesium_phosphate_and_accelerated_calcium_aluminate_binders

10. OhioLINK Journal Article Locator http://journals.ohiolink.edu/ejc/article.cgi?issn=09589465&issue=v25i0001&artic le=11_tpisfppaacab 11. Zhou, X., Yang, J., Wang, J., Bond behavior of magnesium phosphate cement matrix and glass fiber bar, Jiangsu Daxue Xuebao (Ziran Kexue Ban)/Journal of Jiangsu University (Natural Science Edition), Vol. 33, Issue 6, pp 730-735, 2012

12.

Accessory Equipment: Magnesium Phosphate

Cement www.sbmjawcrushers.com/accessory-equipment/7657.html

13. Li Bin, Xun Yong, and Yang Jianming. "Research on bonding capacity between magnesium phosphate cementing material and carbon fiber reinforced plastic bar, Architecture Technology Vol 44, No 5, 2013, pp 411-414. 14. Images for cement frantzis https://www.google.gr/search?q=cement+frantzis&sa=N&rlz=1C2VSNC_enGR558GR558& tbm=isch&tbo=u&source=univ&ei=SzyWUpaoDsi6ygP18oCADQ&ved=0CFMQsAQ4Cg&biw =988&bih=618

15. Transition points in steel fibre pull-out tests from ... - PhDTree phdtree.org/.../29710130-transition-points-in-steel-fibre-pull-out-tests-fr...

9) P. Frantzis (2011), “Fabrication of Cement, Polymer, and Metal-Matrix Fibre Composites by Gravity-Assisted Liquid-Binder Infiltration: A Practical Approach” ISRN Materials Science, vol. 2011, Article ID 757218, doi:10.5402/2011/757218 http://www.hindawi.com/isrn/ms/2011/757218/ref/ http://www.deepdyve.com/lp/hindawi-publishing-corporation/fabrication-ofcement-polymer-and-metal-matrix-fibre-composites-by-TLo5daac3B 1. Images for cement frantzis https://www.google.gr/search?q=cement+frantzis&sa=N&rlz=1C2VSNC_enGR558GR558& tbm=isch&tbo=u&source=univ&ei=SzyWUpaoDsi6ygP18oCADQ&ved=0CFMQsAQ4Cg&biw =988&bih=618

2. http://web.ebscohost.com/abstract?direct=true&profile=ehost&scope=site&auth type=crawler&jrnl=20906080&AN=75244208&h=3qaX2kEYn%2bJPObB6Q6t VdSa9TWIpH4kUQYbqRxYIQALfOaQqHfnD3sXNvjdAavDRXAy6YqU22Teg VRnrhfOLUg%3d%3d&crl=c 3. Search Articles for "Composites Cement"

Academic Journals Database Disseminating quality controlled scientific knowledge

http://journaldatabase.org/database/search.html?search_type=Articles&search_i np=Composites%20Cement 4. Images for materials frantzis https://www.google.gr/search?q=materials+frantzis&safe=off&sa=N&tbm=isch &tbo=u&source=univ&ei=aXyoUpKdJqnM0QWfoIDwDQ&ved=0CFcQsAQ4C g&biw=1280&bih=708#imgdii=_ 5. Images for adhesive frantzis https://www.google.gr/search?q=adhesive+frantzis&safe=off&sa=N&tbm=isch& tbo=u&source=univ&ei=WYGoUs2SLu6k0AXl1IHIDw&ved=0CFYQsAQ4FA &biw=1280&bih=708

C) Crumb Rubber-Bitumen Technology (Recycling)

1) P. Frantzis (2003), “Development of Crumb Rubber Reinforced Bituminous Binder under Laboratory Conditions”, Journal of Materials Science, 38, page 1397-1401. 1. K. Gupta, M. R. Kurup, E. Devadoss, Rm. Muthiah, and S. Thomas, Development and Evaluation of a Novel Binder Based on Natural Rubber and High-Energy Polyurethane/Composite Propellants, Journal of Applied Polymer Science, 1985, Volume 30 Issue 3, pp 1095-1112, Article first published online in 2003 (cited as Related Paper) 2. VL Shulman, 2004, Tyre Recycling, Rapra Review Reports, editor S Humphreys, Papra Technology Limited, Shropshire, UK, Volume 15, No 7

3. HL Robinson, 2004, Polymers in Asphalt, Rapra Review Reports, editor S Humphreys, Papra Technology Limited, Shropshire, UK, Volume 15, No 11

4. Lievana Emiliano Julían, Dissertation Doktor-Ingenieur 2005, Recycling of ground tyre rubber and polyolefin wastes by producing thermoplastic elastomers, Technischen Universität Kaiserslautern 5. V. M. Zubashchenko, I. N. Kuzin, Optimizing the multilayer heat-insulating lightweight refractory linings of industrial furnaces and heat-powered units, Refractories and Industrial Ceramics, 01/2005; 46(6):432-434. DOI: 10.1007/s11148-006-0041-x (cited as Similar Publication) 6.

Dissertation

7. D García, J López, R Balart, RA Ruseckaite and PM Stefani, Composites based on sintering rice husk–waste tire rubber mixtures, Materials & Design, Volume 28, Issue 7, 2007, pp 2234-2238, Elsevier 8. Cicero de Souza Lima, Masters Dissertation 2008 in Engineering of Transport, Characterization of modified asphalt binders with rubber tire and additive, Federal University of Ceará, Fortaleza, Brazil 9. YILMAZ Mehmet, AHMEDZADE Perviz, SAF VE SBS MODIFIYELI BIT ML BAGLAYICILARIN KISA D NEM YASLANMADAN SONRAKI ZELLIKLERININ IKI FARKLI YASLANDIRMA Y NTEMI KULLANILARAK INCELENMESI, Journal of the Faculty of Engineering & Architecture of Gazi Uni, 2008, Vol. 23, Issue 3, pp569 (cited as Related Article) 10. Recycling of thermosets by direct moulding of fine powder rubber-filled concrete,

11. Alessandro Guglielmotti, Carmine Lucignano, Fabrizio Quadrini, Production of rubber pads by tyre recycling, International Journal of Materials Engineering Innovation, Volume 1, Number 1, 2009, 91 – 106, Inderscience 12. Xiao-Qing, Z., Can-Hui, L., Mei, L., Rheological property of bitumen modified by the mixture of the mechanochemically devulcanized tire rubber powder and SBS, Journal of Materials in Civil Engineering, 2009 13. Miró, Rodrigo1 ; Pérez-Jiménez, Félix1 ; Martínez, Adriana H.1 ; Reyes-Orti, Effect of Crumb Rubber Bituminous Mixes on Functional Characteristics of Road Pavements, Transportation Research Record, pp 83-90, 2009 (cited as Related Article) 14. Felice Giuliani, Filippo Merusi, Antonio Montepara, Fatigue-Related Properties of CrumbRubber Modified Asphalt Binders, Binder Properties 541-553, AsphaltRubber 2009 http://data.abacus.hr/h-ad/radovi_s_kongresa/asphalt_rubber_2009/AR2009_Part2.pdf 15. Fengjuan Zhao, Ziguo Zhao, Aihua Wang, Jidong Liu;Delin Duan, Carpospore Early Development and Callus-Like Tissue Induction of Chrysymenia Wrightii (Rhodymeniaceae, Rhodophyta) Under Laboratory Conditions, Journal of Applied Phycology, 2010, Volume 22, Number 2 195-202 (cited as Related Paper) 16. Quintana, Hugo Alexander Rondon; Castro, Edgar Antonio Vargas; Anselmi, Luis Ongel Moreno, Evaluacion de la temperatura como motodo de estabilizacion de arcillas, Academic Journal Studiositas, 2010, Vol. 5, Issue 1 (cited as Related Article) 17. Felice Giuliani and Filippo Merusi, Advanced Rheological Characterization of Non-Reversible Deformation and Fatigue Behavior in Crumb Rubber Modified Asphalt Binders, Road Materials and Pavement Design, Volume 11, Supplement 1, 2010, Special Issue: SPECIAL ISSUE ON ASPHALT TECHNOLOGY (EATA 2010), Available online: 2011 18. Ruikun Dong, Jinliang Li, and Shifeng Wang, Laboratory Evaluation of PreDevulcanized Crumb Rubber–Modified Asphalt as a Binder in Hot-Mix Asphalt, Journal of Materials in Civil Engineering, 23, 1138, 2011 19. M. Ateeq, A. Senouci, H. Al-Nageim and A. Al-Shamma’a, A New Approach to Enhance the Properties of Waste Polymers, Proceedings of the 6th Conference on the Built Environment and Natural Environment, Best Research Institute, Liverpool John Moore’s University, pp 42-45, 2011 20. F. Moreno, M. C. Rubio, and M. J. Martinez-Echevarria, The Mechanical Performance of Dry-Process Crumb Rubber Modified Hot Bituminous Mixes: the Influence of Digestion Time and Crumb Rubber Percentage, Construction and

Building Materials, Volume 26, Issue 1, 2012, Pages 466-474 (cited as Related Paper) 21. Carmine Lucignano and Fabrizio Quadrini, New Technological Solutions for Recycling Spent Tire Rubber, International Journal of Manufacturing, Materials, and Mechanical Engineering (IJMMME), Volume 2, Issue 1, 2012 22. J. Karger-Kocsis, L. Mészáros, and T. Bárány “Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers” Journal of Materials Science, 2012 23. Ateeq, M., Senouci, A., Al-Nageim, H., and Al-Shamma’a, A., Microwave Spectroscopy for the Analysis of Absorption Properties of Treated Waste Rubber Aggregates, J. Hazard. Toxic Radioact. Waste, 2012, 16(4), 334–342. doi: 10.1061/(ASCE)HZ.2153-5515.0000138 24. http://www.researchgate.net/publication/226995371_Development_of_crumb_ru bber_reinforced_bituminous_binder_under_laboratory_conditions

25. OhioLINK Journal Article Locator http://journals.ohiolink.edu/ejc/search.cgi?q=authorExact:%22Frantzis%2C%2 0P.%22 26. Juan Camilo Múnera Ossa, Modificación Polimérica de Asfaltos, Trabajo de grado presentado para optar al título de Magister en Ingeniería, Universidad EAFIT, Escuela de Ingeniería, Medellín, 2012 27. Images for rubber frantzis https://www.google.gr/search?q=rubber+frantzis&sa=N&rlz=1C2VSNC_enGR558GR558&t bm=isch&tbo=u&source=univ&ei=Wj6WUqiRHMuUhQe_vYGYBg&ved=0CFYQsAQ4Cg&bi w=988&bih=618

28. Munera, J. C., and E. A. Ossa. "Polymer Modified Bitumen: Optimization and Selection." Materials & Design, 2014. In Press, Accepted Manuscript, Available online 14 May 2014 (Volume 62, October 2014, Pages 91–97) 29. Md Tareq Rahman, Md Maniruzzaman A. Aziz, Mohd. Rosli Hainin, Wan Azelee Wan Abu Bakar, "Impact of Bitumen Binder: Scope of Bio-based Binder for Construction of Flexible Pavement, Jurnal Teknologi (Sciences & Engineering), 70:7 (2014), 105–109 www.jurnalteknologi.utm.my | eISSN 2180–3722 | 30. http://booksc.org/book/11220180 31. Ateeq, M., Al-Shamma'a, A. "Experimental study on the optimisation of chemical treatment to reduce waste rubber aggregates absorption properties" (2016) Construction and Building Materials

32. Muhammad Ateeq, Ahmed Boualem Senouci, Ahmed Al-Shamma’a, Hassan Al Nageim. "Study and Analysis of the Properties of Upgraded Coarse Waste Rubber Aggregates" academia.edu 33. Mahmoud Reda Taha, Amr S. El-Dieb and Moncef L. Nehdi, "Recycling Tire Rubber in Cement-Based Materials", Eco-Efficient and Sustainable Concrete Incorporating Recycled Post-Consumer and Industrial By-Products, An ACI Technical Publication, Editor: Moncef L. Nehdi, 2017 AMERICAN CONCRETE INSTITUTE

2) P. Frantzis (2003), “Crumb Rubber-Bitumen Interactions: Cold-Stage Optical Microscopy”, Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol.15, No. 5, page 419-426. 1. Król J, New method of analysis of polymer modified bitumen microstructure, Journal Drogi i Mosty, ISSN 1643-1618, Publisher Instytut Badawczy Dróg i Mostów, Volume 4, 2008, pp 23-46 2. Zhou Chunxiu and Tan Yi Qiu, Asphalt rubber particles in addition to factors of ice and snow performance: study of de-icing performance of crumb rubber granular asphalt mixture, Journal of Building Materials, 2009, 12(6), 672-675 http://www.docin.com/p-397604013.html 3. Chen Ming, VITA coupling agent rubber asphalt SMA10 experimental study, Journal of Communications Standardization, 2009, (10), pp 57-60 4. Wang Su, Mu Hai and Wang Zhen, Causes of asphalt pavement disease of expressway and suggestions on maintenance, Journal of Transport Standardization, 2009 (206) 5. Ana Sofía Figueroa Infante, Elsa Beatriz Fonseca Santanilla and Fredy Alberto Reyes Lizcano, Caracterización fisicoquímico y morfológica de asfaltos modificados con material reclicado (Physicochemical and Micromorphological Evaluation of Asphalt Modified with Recycled Materials),

Vol 13, No 1, 2009 6. Storage Stability of Rubber Modified Asphalt, 2009 http://wenku.baidu.com/view/7dd3ae06de80d4d8d15a4f82.html 7. Filippo Merusi, Giovanni Polacco, Antonella Nicoletti and Felice Giuliani, Kerosene resistance of asphalt binders modified with crumb rubber: solubility and rheological aspects, Materials and Structures, Volume 43, Number 9, 2010, pp 1271-1281 8. Rongji Cao,

, Southeast

University PhD thesis http://www.taodocs.com/p-4196771.html

9. Ying Gao and Rongji Cao, Interaction theory of asphalt and rubber, Edition of the Journal of Chemistry and Materials Science: Journal of Wuhan University of Technology and Springer-Verlag Berlin Heidelberg, Volume 25, Number 5, 2010

10. Xiao Feng Wang, Study of Rubber Asphalt Modification Mechanism, Advanced Materials Research, Volumes 194 - 196, 2011, pp 844-847 11. Xiao Feng Wang and Cao R.J., Rubber asphalt modification mechanism, Chang'an Daxue Xuebao (Ziran Kexue Ban)/Journal of Chang'an University (Natural Science Edition), 2011, 31(02):6-11. 12. Filippo Merusi, Felice Giuliani, Sara Filippi, Pietro Moggi and Giovanni Polacco, Kerosene-Resistant Asphalt Binders Based on Nonconventional Modification, Journal of Transportation Engineering, Volume 137, Issue 12, 2011 13. Golzin Yadollahi and Hamid Sabbagh Mollahosseini, Improving the Performance of Crumb Rubber Bitumen by Means of Poly Phosphoric Acid (Ppa) and Vestenamer Additives, Construction and Building Materials, Volume 25, Issue 7, 2011, pp 3108-3116 (cited as Related Paper) 14. Yan Wang, Bochuan Zhan and Jian Cheng, Study on Preparation Process of SBS / Crumb Rubber Composite Modified Asphalt, Advanced Materials Research, Vol. 450-451, pp 417-422, 2012 15. Kang, A H, Zhang,W H and Sun, L J, Preparation method of modified asphalt fluorescence optical microscopy sample, Sichuan Daxue Xuebao (Gongcheng Kexue Ban)/Journal of Sichuan University (Engineering Science Edition), 2012 16. Kang love Hung, Chang Wu Hong, and Sun Li Jun, Fluorescence microscopy observation of sample preparation methods of modified asphalt , Journal of Sichuan University (Engineering Science Edition), 2012 17. Preparation method of modified asphalt fluorescent micro-morphological structure image source sample, Patent No CN 102680294 A, 2012 http://ip.com/patfam/en/46812558

18. Ming-Chin Yeh, Microstructure Properties of PAC: Implications on Durability and Performance, Ph.D. Doctoral Dissertation, NCU Dept Civil Engineering, 2012 thesis.lib.ncu.edu.tw

19.


20. Ateeq, M., Senouci, A., Al-Nageim, H., and Al-Shamma’a, A., Microwave Spectroscopy for the Analysis of Absorption Properties of Treated Waste Rubber Aggregates, J. Hazard. Toxic Radioact. Waste, 2012, 16(4), 334–342. doi: 10.1061/(ASCE)HZ.2153-5515.0000138 21. Kim, H. and Lee, S., A Laboratory Investigation of Different Standards of Phase Separation in Crumb Rubber Modified Asphalt Binders, J. Mater. Civ. Eng., 2012 doi: 10.1061/(ASCE)MT.1943-5533.0000751 22. Kang, A.-H. , Chen, J., Sun, L.-J., Performance and microstructure of SBS modified asphalt, Jiefangjun Ligong Daxue Xuebao/Journal of PLA University of Science and Technology (Natural Science Edition), 2012 23. Chang-rain, Experimental Study on Mechanics Effects of Fly Ash Soil Improved by Rubber Patricles under Freeze-thaw Cycle, Ph.D. Doctoral Dissertation, Jilin University, 2012 http://www.cgl.org.cn/auto/db/detail.aspx?db=950002&rid=1586827&agfi=0&cls =0&uni=True&cid=0&showgp=True&prec=False&md=93&pd=6&msd=93&ps d=6&mdd=93&pdd=6&count=10&reds=%E4%BD%99%E9%9B%B7 24.

, Appeared in

the internet June 2013 http://www.aia.org/aiaucmp/groups/aia/documents/pdf/aias077910.pdf 25. Suzhou University, Powder dispersion system in the asphalt materialized role model behaviors and estimates, http://www.tiaozhanbei.net/project/17768/ 26. López-Moro, F., Moro, M., Hernández-Olivares, F., Witoszek-Schultz, B., and Alonso-Fernández, M., Microscopic Analysis of the Interaction Between Crumb Rubber and Bitumen in Asphalt Mixtures Using the Dry Process, Construction and Building Materials, 2013, 48, pp 691-699. 27. Hung Kang Xiao Peng Zhang Hongju love Juan, Preparation of modified asphalt fluorescence microscopic morphology of the image source, 2013 http://www.ggsgg.com/patent/201312/723744.shtml 28. Shu, Xiang, and Baoshan Huang, Recycling of waste tire rubber in asphalt and portland cement concrete: An overview, Construction and Building Materials, 2013.

29. Tancioco Matthew, Recycling of Waste Rubber in Asphalt and Portland Cement Concrete, 2014, http://prezi.com/r_b372l3dvg2/recycling-of-waster-rubber-inasphalt-and-portland-cement-co/ 30. María José Martín Alfonso, BITUMEN MODIFICATION BY REACTIVE ISOCYANATE PREPOLYMERS, UNIVERSITY OF HUELVA, DEPARTMENT OF CHEMIICAL ENGINEERIING, , 31. Yang, Y.S., Research on ice-broken effect of granulated rubber asphalt mixture high-elastic deck pavement on bridge, Applied Mechanics and Materials, 2014, Volumes 587 - 589, page 971-975 32. Kou, C., Kang, A., Zhang, W., Methods to prepare polymer modified bitumen samples for morphological observation, Construction and Building Materials, 2015 33. Amin Tayryan, Mechanical effect of rubber particles in bitumen, Transportation Engineering / sixth / No. III / 2015 file:///C:/Users/User/Downloads/TJ100121435692600.pdf 34. Xue, Y.-C., Qian, Z.-D., Xia, R.-H. "Research on rubber particles epoxy asphalt mixture based on low temperature performance" (2016) Hunan Daxue Xuebao/ Journal of Hunan University Natural Sciences 35. Pulido Pinilla Camilo, Joya Zamora William, STATE OF KNOWLEDGE ON MODIFIED ASPHALTS, Research work, ANALYTICAL SUMMARY IN EDUCATION - RAE, FACULTY OF ENGINEERING, CIVIL ENGINEERING PROGRAM, BOGOTA DC, 2016. 36. DING Zhana, ZOU Pengb, LI Peilong. "Analysis of Physical and Chemical Behavior of Crumb Rubber in Asphalt", Chinese Journal of Applied Chemistry, 2017, Vol. 34, Issue (2): 204-210, DOI: 10.11944/j.issn.1000-0518.2017.02.160117 37. Li, P., Ding, Z., Zou, P. "Analysis of physico-chemical properties for crumb rubber in process of asphalt modification" (2017) Construction and Building Materials

3) P. Frantzis (2004), “Crumb Rubber-Bitumen Interactions: Diffusion of Bitumen into Rubber”, Journal of Materials in Civil Engineering, ASCE (American Society of Civil Engineers), Vol. 16, No 4, page 387-390. 1. Richard M. Barrer, Nature of the Diffusion Process in Rubber, Nature, 140, 106107, 1937 | doi: 10.1038/140106b0 (cited as Related Paper) 2. Groenevelt P.H., and Grunthal P.E., Utilisation of Crumb Rubber as A Soil Amendment for Sports Turf, Follow Soil and Tillage Research, Volume 47 (1), 1998, pp. 169-172 (cited as Related Paper)

3. F J Navarro, P Partal, F Martínez-Boza and C Gallegos, Influence of crumb rubber concentration on the rheological behaviour of a crumb rubber modified bitumen, Energy Fuels, 2005, 19(5), pp 1984–1990 4. Pérez Lepe, A., Páez Dueñas, A., Evaluation of stability of ground tire rubbermodified bitumen through solubility measurements [Medida de la estabilidad del betún polvo de neumáticos por solubilidad en disolventes orgánicos], Carreteras Volume 4, Issue 151, January 2007, Pages 45-52 5. Cao Rongji and Chen Rongsheng, Laboratory study on process parameters of asphalt rubber and their effects on performance, Journal of Southeast University (Natural Science Edition), 2008-02 6. Rongji Cao, , Southeast University PhD thesis http://www.taodocs.com/p-4196771.html 7. Yufang Ying and Zheng Nanxiang, Asphalt recycling agent and the proliferation of research, Journal of China & Foreign Highway, Vol. 29, N. 5, pp 229-232, 2009 7a. Yufang Ying and Zheng Nanxiang, Diffusion regeneration agent and asphalt, Journal of Foreign Highway, Vol. 29, N. 5, pp 229-232, 2009 8. Xie Junwei, Wu Ning, Design method and practice summarization of plant hot regenerated asphalt mixture in Shenzhen City, Highway and Urban Roads Bridges & Flood Control Journal, pp 32-34, 2009 (4) 9. Storage Stability of Rubber Modified Asphalt, 2009 http://wenku.baidu.com/view/7dd3ae06de80d4d8d15a4f82.html 10. SOUDANI Khedoudja, SAOULA Samia, HADDADI Smail, AIT MOKHTAR Khedidja, ETUDE DES CARACTERISTIQUES DES ENROBES BITUMINEUX MODIFIES PAR DES DECHETS INDUSTRIELS (STUDY OF CHARACTERISTICS OF BITUMINOUS MODIFIED BY INDUSTRIAL WASTE), ACTES DU SEMINAIRE INTERNATIONAL

IINNOVVAATTIION EETT VVAALLORIISSAATTIION DAANSS LLEE GEENIIEE CIIVVIILL, Février 5 – 6 – 7, Hammamet, Tunisie, 2009, pp 359-365 11. N. Saoudi, S. Haddadi, E. Ghorbel, Ductilité des bitumes de même classe modifiés par un déchet industriel, 9ième Congrès de Mécanique, FS Semlalia, Marrakech, 319321 http://smsm.fsac.ac.ma/congres/9congres/Proceedings-PDF/VOLUME-II/T08/0820.pdf 12. K. Soudani, S. Saoula,S. Haddadi, K. Ait Mokhtar, Influence de l’ajout du NBR sur les caractéristiques mécaniques et rhéologiques des enrobés Bitumineux, 9ième Congrès de Mécanique, FS Semlalia, Marrakech, 382-384 http://smsm.fsac.ac.ma/congres/9congres/Proceedings-PDF/VOLUME-I/T03/0341.pdf

13. A. Pérez-Lepe, A. Páez, Stability Assesment Through Solubility and Rheological Measurements of Gtr-modified Bitumen, Terminal Blends (rubberized asphalts) 885-902, Asphalt-Rubber 2009 http://data.abacus.hr/h-ad/radovi_s_kongresa/asphalt_rubber_2009/AR2009_Part2.pdf 14. Filippo Merusi, Giovanni Polacco, Antonella Nicoletti and Felice Giuliani, Kerosene resistance of asphalt binders modified with crumb rubber: solubility and rheological aspects, Materials and Structures, Springer, Volume 43, Number 9, 2010, pp 1271-1281 15. Ying Gao and Rongji Cao, Interaction theory of asphalt and rubber, Edition of the Journal of Chemistry and Materials Science: Journal of Wuhan University of Technology and Springer-Verlag Berlin Heidelberg, Volume 25, Number 5, 2010

16. Bradley J. Putman and Serji N. Amirkhanian, Characterization of the Interaction Effect of Crumb Rubber Modified Binders Using HP-GPC, Journal of Materials in Civil Engineering, vol. 22, no. 2, 2010 17. Xiao Feng Wang, Study of Rubber Asphalt Modification Mechanism, Advanced Materials Research, Volumes 194 - 196, 2011, pp 844-847 18. Xiao Feng Wang and Cao R. J., Rubber asphalt modification mechanism, Chang'an Daxue Xuebao (Ziran Kexue Ban)/Journal of Chang'an University (Natural Science Edition), 2011, 31(02):6-11. 19. Zhan Ding, Jun Jiang, Shao Ying He, Cheng Shen, Research on Physical and Chemical Behavior of Crumb Rubber in Asphalt Rubber, Advanced Materials Research, Volumes 255 – 260, 2011, pp 3411-3415 20. Hugo Quintana Alexander Rondon, Grain Rubber Tire (GCR): State of knowledge and analysis of use in Colombia, SCI VI Conference on Pavement and Road Maintenance, 2-4 November 2011, BOGOTA DC, COLOMBIA www.Articulo asfalto caucho 21. Filippo Merusi, Felice Giuliani, Sara Filippi, Pietro Moggi and Giovanni Polacco, Kerosene-Resistant Asphalt Binders Based on Nonconventional Modification, Journal of Transportation Engineering, Volume 137, Issue 12, 2011

22. P. S. Divya and J. Murali Krishnan, Influence of type of binder and crumb rubber on the morphology of crumb rubber modified bitumen, Proceeding of the National Conference on Recent Advances in Civil Engineering (RACE 2011), Editors S.B. Dwivedi, Rajesh Kumar, K.K. Pandey, Kesheo Prasad, Medha Jha, Anurag Ohri and P.B. Ramudu, October 14-16, 2011, Varanasi, pp 68-72 23. Golzin Yadollahi and Hamid Sabbagh Mollahosseini, Improving the Performance of Crumb Rubber Bitumen by Means of Poly Phosphoric Acid (Ppa) and Vestenamer Additives, Construction and Building Materials, Volume 25, Issue 7, 2011, pp 3108-3116 (cited as Related Paper) 24. Zhang Honglei, Wang Shifeng, Zhang Yong, Zhang Yinxi, Interaction between rubber and asphalt: Swelling and crosslink network evolution, Petroleum Asphalt, 2011, 25(5), pp 17-23 http://www.taodocs.com/p-3357343.html 25. LI Jinfeng, ZHANG Qilong, XU Yi and YANG Hui, Study on the curing and thermal aging properties of polysulfide sealent, New Building Materials, 2011, pp 69-72 http://www.docin.com/p-306522019.html 26. DING Zhan and LI Pedong, Research on influence factors and macro viscosity characteristics of crumb rubber modified asphalt, New Building Materials, 2011 (7), pp 66-68 26a. Li Pei Long, Ding Zhan, Research on rubber modified asphalt viscosity factors and microscopic characteristics, New Building Materials, 2011 (7), pp 66-68 27. I Gaweł, J Piłat, P Radziszewski, K J Kowalski and J B Król, CHAPTER4 Rubber modified bitumen, In book: Polymer Modified Bitumen, Publisher: Woodhead Publishing, Editors: McNally, Tony, pp.72 - 97

28. Zhang Lei, Lv Zhichao, Fushan Wang Shifeng, Jing Tao Jiang, and Li Jian, “Activation of the basic properties of scrap car tire crumb rubber modified asphalt” Journal of China Synthetic Rubber Industry, 25(2), pp. 143-147, 2012. 29. Ming-Chin Yeh, Microstructure Properties of PAC: Implications on Durability and Performance, Ph.D. Doctoral Dissertation, NCU Dept Civil Engineering, 2012 thesis.lib.ncu.edu.tw

30.


31. Zhang Lei, Lv Zhichao, Chiang Fukuyama, Jing Tao, Wang Shifeng, and Li Jian, Activation of the basic performance of the waste passenger tire crumb rubber modified asphalt, Synthetic Rubber Industry, 2012, pp 143-147 32. Ding Zhan, Li Pei Dragon, Rubber modified asphalt viscosity influence factors and forecast model, Highway 7, 2012, pp 213-217 33. Zhang, H. L., Lu, Z. C., Shi, J. T., Jiang, F. S., Wang, S. F., and Li, J. X, Activated ground car tire rubber and basic properties of asphalt modified with it, China Synthetic Rubber Industry, 2012, 35(2), pp 143-147 34. Ding Zhan and Li Pei-long, Research on Influence Factors and Prediction Model of Viscosity of Crumb Rubber Modified Asphalt, Highway, 2012, (7) 35. Divya, P., Gideon, C., and Murali Krishnan, J., Influence of the Type of Binder and Crumb Rubber on the Creep and Recovery of Crumb Rubber Modified Bitumen. J. Mater. Civ. Eng., 2013, 25(4), pp 438–449 36. Zhan Ding, Yang Zhi Zhu, Shuang Wu, Ding Li Lv, Influence Factors and Prediction Model of Viscosity for Crumb Rubber Modified Asphalt, Advanced Materials Research, 2013, 723, 376 37. López-Moro, F., Moro, M., Hernández-Olivares, F., Witoszek-Schultz, B., and Alonso-Fernández, M., Microscopic Analysis of the Interaction Between Crumb Rubber and Bitumen in Asphalt Mixtures Using the Dry Process, Construction and Building Materials, 2013, 48, pp 691-699. 38. Nivitha M. R., Interaction Mechanisms of Modified Bitumen, Hincol Workshop, September 2013, Madras, India, pp 62. http://www.hincol.com/downloads/iit-madras/workshop-sep-2013/interactionmechanisms-of-modified-bitumen.pdf 39. María José Martín Alfonso, BITUMEN MODIFICATION BY REACTIVE ISOCYANATE PREPOLYMERS, UNIVERSITY OF HUELVA, DEPARTMENT OF CHEMIICAL ENGINEERIING, ,

40. Marek Iwanski, Hydrated Lime multifunctional additive to SMA pavement durability, ISSN: 1897-2691 Publisher: Kielce University of Technology Publishing, Communication Engineering Department, Year: 2014 Place of publication: Kielce Series: Monographs, studies, hearings. 41. Santagata, E., Lanotte, M., Baglieri, O., Dalmazzo, D., and Zanetti, M. C. Analysis of bitumen–crumb rubber affinity for the formulation of rubberized dry mixtures, Materials and Structures, 2015, 1-8. 42. Ma, Tao, et al., Characteristics of desulfurized rubber asphalt and mixture, KSCE Journal of Civil Engineering (2015): 1-9. 43. Feng, Wang, Kuang Minming, Li Guanlong, Zhou Xiaolong, and Li Chenglie. "Investigation of Swelling and Dissolution Process of Natural Rubber in Aromatic Oil." China Petroleum and Petrochemical Technology, 17, no 3 (2015): 76-86. 44. Yao, Hongru, Shuai Zhou, and Shifeng Wang. "Structural evolution of recycled tire rubber in asphalt." Journal of Applied Polymer Science (2015). 45. Ghavibazoo, Amir. "Characterization of activities of crumb rubber in interaction with asphalt and its effect on final properties." PhD diss., North Dakota State University, 2015. 46. Karmakar, Sandip, and Tapas Kumar Roy. "Effect of Waste Plastic and Waste Tires Ash on Mechanical Behavior of Bitumen." Journal of Materials in Civil Engineering 28, No. 6 (2016) 47. Santagata, Ezio, Michele Lanotte, Orazio Baglieri, Davide Dalmazzo, and Maria Chiara Zanetti. "Analysis of bitumen–crumb rubber affinity for the formulation of rubberized dry mixtures." Materials and Structures 49, no. 5 (2016): 1947-1954. 48. Yao, Hongru, Shuai Zhou, and Shifeng Wang. "Structural evolution of recycled tire rubber in asphalt." Journal of Applied Polymer Science 133, no. 6 (2016). 49. Ma, Tao, Hao Wang, Yongli Zhao, Xiaoming Huang, and Siqi Wang. "Laboratory investigation of crumb rubber modified asphalt binder and mixtures with warm-mix additives." International Journal of Civil Engineering (2016): 1-10. 50. Ma, Tao, Yongli Zhao, Xiaoming Huang, and Yao Zhang. "Characteristics of desulfurized rubber asphalt and mixture." KSCE Journal of Civil Engineering 20, no. 4 (2016): 1347-1355. 51. Ragab, Mohyeldin Safwat Ahmed. "Enhancing the performance of crumb rubber modified asphalts through controlling the internal network structure developed." PhD diss., North Dakota State University, 2016. 52. Naeem Aziz Memon, Pervez Shaikh, Fareed Ahmed Memon, Nafees Ahmed Memon, Noor Ahmed Memon, International Journal of Engineering and Technology (IJET), p-ISSN : 2319-8613, Vol 8 No 1 Feb-Mar 2016

53. Ma, T., Ye, Q., Wu, C., and Huang, X. (2016, October). "Characterization of stable crumb rubber asphalt and mixture". In Functional Pavement Design: Proceedings of the 4th Chinese-European Workshop on Functional Pavement Design (4th CEW 2016, Delft, The Netherlands, 29 June-1 July 2016) (p. 277). CRC Press. 54. Cong, Peiliang, Hongjie Hao, Yihan Zhang, Weihua Luo, and Dianmei Yao. "Investigation of diffusion of rejuvenator in aged asphalt." International Journal of Pavement Research and Technology 9, no. 4 (2016): 280-288. 55. SS. Asadi, T. NagaSeshu Babu, B. Harish Kumar, M. Sumanth, G. Sumanth Kumar, S. Harsha vardhan, P. Khasim khan. "Crumb Rubber Utilization in Pavements to Improve the Durability: An Experimental Study", International Journal of Applied Engineering Research ISSN 0973-4562 Volume 11, Number 9 (2016) pp 6418-6423 © Research India Publications. http://www.ripublication.com 56. Li, P., Ding, Z., Zou, P. "Analysis of physico-chemical properties for crumb rubber in process of asphalt modification" (2017) Construction and Building Materials 57. Ding Zhan, Zou Peng, Li Peilon, "Analysis of Physical and Chemical Behaviour of Crumb Rubber in Asphalt", Chinese Journal of Applied Chemistry, Vol. 34, Iss. 2, 2017, DOI: 10.11944/j.issn.10000518.2017.12.16011 58. Ma, T., Wang, H., Zhao, Y. "Laboratory Investigation of Crumb Rubber Modified Asphalt Binder and Mixtures with Warm-Mix Additives" (2017) International Journal of Civil Engineering 59. Wu, X., Formela, K., Rasool, R.T. "Evaluation of structural change during fast transformation process of cross-linked NR into liquid NR by light pyrolysis" (2017) Polymer Degradation and Stability 60. Wang, Shifeng, Dingxin Cheng, and Feipeng Xiao. "Recent developments in the application of chemical approaches to rubberized asphalt." Construction and Building Materials 131 (2017): 101-113. 61. Szerb, Elisabeta I., Isabella Nicotera, Bagdat Teltayev, Rosolino Vaiana, and Cesare Oliviero Rossi. "Highly stable surfactant-crumb rubber-modified bitumen: NMR and rheological investigation." Road Materials and Pavement Design (2017): 1-11.

D) Computer Hardware (BGA) Repairs (Recycling)

1. P. Frantzis, P. Karydopoulos and S. Villiotis (2013), ‘‘Development of Crumb Rubber Reinforced Elastomeric/Semi-Elastomeric Thermally Conductive Composite Materials to be Used as Permanent Ball Grid Array Stencils in Printed Circuit Board Rework’’, Materials Science: An Indian Journal, MSAIJ, 10(1), 20-29. http://www.tsijournals.com/tsijournals/Journals/Materials%20Science%20%20An%20Indian%20Journal/Vol_10_issue1/Development%20of%20crumb%20rubber%20reinforced%20elastomeric.html

2. P. Frantzis, P. Karydopoulos and N. Karagiannis (2014), ‘‘Development of Semi-Elastomeric Thermally Conductive Crumb Rubber Reinforced Cementitious Composites to be Used as Permanent Ball Grid Array Stencils in Printed Circuit Board Rework’’, Materials Science: An Indian Journal, MSAIJ, 11(3), 97-104. http://www.tsijournals.com/tsijournals/Journals/Materials%20Science%20%20An%20Indian%20Journal/PIP/abs_61.html

3. P. Frantzis, P. Karydopoulos and N. Karagiannis (2014), ‘‘Structure of Ball Grid Array/Permanent Semi-Elastomeric Thermally Conductive Crumb Rubber Reinforced Stencil/Printed Circuit Board Interconnects’’, Materials Science: An Indian Journal, MSAIJ, 10(10), page 431-437. http://publicationhosting.org/tsijournals/Journals/Materials%20Science%20%20An%20Indian%20Journal/Vol_10_issue-10/abs04.html

4. P. Karydopoulos, P. Frantzis and S. Villiotis (2014), ‘‘Permanent Elastomeric/Semi-Elastomeric Ball Grid Array (BGA) Stencils’’, Greek Patent No GR 1008100

Panagiotis Frantzis - Publications - ResearchGate http://www.researchgate.net/profile/Panagiotis_Frantzis2/publications/ http://www.obi.gr/obi/Portals/0/ImagesAndFiles/Files/EDBI/2014/A/EDBI_A_2014_02.pdf

5. P. Karydopoulos, P. Frantzis and N. Karagiannis (2014), ‘‘Structure of Ball Grid Array/Permanent Semi- Elastomeric Thermally Conductive Crumb Rubber Reinforced Bituminous Stencil/Printed Circuit Board Interconnects’’, In Proceedings, 22nd Telecommunications Forum, TELFOR 2014, Serbia, Belgrade, Sava Centre, November 25-27, SECTION 7: APPLIED ELECTRONICS (AEL), pp 652-655 978-1-4799-6191-7/14/$31.00 ©2014 IEEE-Copyright IEEE www.computer-systems.gr laboratories at Telfor 2014 Belgrade