Research on the Mechanical Properties and ... - Science Direct

Download PDF
0 downloads 0 Views 10MB Size Report
Comment
metal by the process of 15a35NJ/cm welding heat input energy and ... 15mm was machined into plate with the butt groove angle of 60e for arc welding. ..... ppt x. MPa f x σ. -. (. = |. ) x. J. (7). Where f is volume fraction of precipitates, x is average ...
Available online at www.sciencedirect.com

ScienceDirect Procedia Engineering 130 (2015) 475 – 486

WK,QWHUQDWLRQDO&RQIHUHQFHRQ3UHVVXUH9HVVHO7HFKQRORJ\

5HVHDUFKRQWKH0HFKDQLFDO3URSHUWLHVDQG:HOGDELOLW\RI:KH 3ODWHZLWK910LFUR$OOR\LQJ ;-:DQJD 65/LD:%/LXD@

$  V V Mn Si  V V 31L  V IN C N  V grain  V D  V ppt MPa 

ReL

 

:KHUH$LV3HLHUOV1DEDUURVWUHVV 03D >@ıV 0Q6L ıV 31L ı,1 &1 ıJUDLQı'ıSSWDUHFRQWULEXWLRQVIURPVROLG VROXWLRQ VWUHQJWKHQLQJ RI VXEVWLWXWLRQDO DWRPV VROLG VROXWLRQ VWUHQJWKHQLQJ RI LQWHUVWLWLDO DWRPV JUDLQ VL]H VWUHQJWKHQLQJ GLVORFDWLRQ VWUHQJWKHQLQJ DQG SUHFLSLWDWLRQ VWUHQJWKHQLQJ UHVSHFWLYHO\ 7R FDOFXODWH HDFK VWUHQJWKHQLQJFRQWULEXWLRQVVHYHUDODVVXPSWLRQVDUHWDNHQLQWRDFFRXQWDVGHVFULEHGLQGHWDLOEHORZ 4.1.1. Solid solution strengthening )RU IHUULWH DQG SHDUOLWH VDPSOHV LW FDQ EH FRQVLGHUHG WKDW VROXWH FDUERQ DWRPV LQ WKH IHUULWH PDWUL[ FDQ QRW EH QHJOLJLEHDQGLWFDQEHFRQVLGHUHGWKDWVROXWHQLWURJHQDWRPVLQWKHIHUULWHPDWUL[FDQEHVPDOOLILWLVDVVXPHGWKDW QLWURJHQDWRPVDUHDOPRVWSUHFLSLWDWHGDV9 &1 SDUWLFOHV7KHUHIRUHVROLGVROXWLRQVWUHQJWKHQLQJRIVXEVWLWXWLRQDO DWRPVıV 0Q6L ıV 31L LQWKLVFDOFXODWLRQFDQEHREWDLQHGE\FRQVLGHULQJWKHHIIHFWRI6L0Q3DQG1LDWRPVXVLQJ WKHUHJUHVVLRQHTXDWLRQV>@

VV

Mn Si

VV

P  Ni

˄PDVV Si˅ MPa   ˄PDVV Mn˅ 

 

˄PDVV Ni˅ MPa   ˄PDVV P˅ 

 

VROLG VROXWLRQ VWUHQJWKHQLQJ RI RI LQWHUVWLWLDO DWRPV ı,1 &1  LQ WKLV FDOFXODWLRQ FDQ EH REWDLQHG E\ FRQVLGHULQJ WKH HIIHFWRI&1DWRPVXVLQJWKH(T>@

V

IN

C N

 u  u f IN MPa 



 

:KHUHI,1LVSHUFHQWDJHRILQWHUVWLWLDODWRPVLWLVHVWLPDWHGWKDWI,1LV>@6LQFHWKHFKHPLFDOFRPSRVLWLRQV RI6L0Q31L&1LQWKH9DGGHGVWHHODUHPDVVPDVVPDVVPDVVPDVV UHVSHFWLYHO\HVWLPDWHGıV 0Q6L ıV 31L ı,1 &1 DUHOLVWHGLQWDEOH 4.1.2. Grain size strengthening *UDLQ VL]H VWUHQJWKHQLQJ ıJUDLQ LV FDOFXODWHG IURP DQ H[SHULPHQWDOO\GHWHUPLQHG +DOO±3HWFK HTXDWLRQ IRU KLJK VWUHQJWKORZDOOR\LQJVWHHO>@

V grain

 u d z MPa 



 

:KHUHG]LVDYHUDJHGLDPHWHURIWKHJUDLQ,WFDQEHVHHQLQVHFWLRQWKHUHIRUHWKHıJUDLQFDQEHFDOFXODWHGDQGWKH HVWLPDWHGYDOXHVIRUıJUDLQDUHOLVWHGLQWDEOH 4.1.3. Dislocation strengthening )RUGLVORFDWLRQVWUHQJWKHQLQJFDOFXODWLRQWKHSURSRVHGHTXDWLRQ>@LVXVHG

VD

Pb U  MPa 



 

:KHUH ȝ LV VKHDU PRGXOXV RI SXUH LURQ  *3D  E LV %XUJHUV YHFWRU h PP  ȡ LV GLVORFDWLRQ GHQVLW\ 6LQFHȡLVOLVWHGLQWDEOHWKHFDOFXODWHGı'DUHOLVWHGLQWDEOH

483

X.J. Wang et al. / Procedia Engineering 130 (2015) 475 – 486

4.1.4. Precipitation strengthening )RUSUHFLSLWDWLRQVWUHQJWKHQLQJFDOFXODWLRQWKHSURSRVHGHTXDWLRQ>@LVXVHG

 f

V ppt

x

§ · x OQ ¨ MPa   ¸ ©  u ¹



 

:KHUH I LV YROXPH IUDFWLRQ RI SUHFLSLWDWHV x LV DYHUDJH LQWHUSDUWLFDOH VSDFLQJ 6LQFH I LV OLVWHG LQ WDEOH WKH FDOFXODWHGıSSWDUHOLVWHGLQWDEOH 4.2. Strengthening mechanisms for ultimate tensile strength )RUXOWLPDWHWHQVLOHVWUHQJWKFDOFXODWLRQWKHSURSRVHGHTXDWLRQ>@LVXVHG

Rm

B  V Vc Mn Si  V V P  Ni  V IN C  N  V Pearlite  V grain  V D  V ppt 

 

:KHUH%LVIULFWLRQVWUHVVRIVLQJOHFU\VWDOSXUHLURQ 03D >@ı¶V 0Q6L ıV 31L ı,1 &1 ı3HDUOLWHıJUDLQı'ıSSW DUH FRQWULEXWLRQV IURP VROLG VROXWLRQ VWUHQJWKHQLQJ RI VXEVWLWXWLRQDO DWRPV 0Q 6L 1L 3  VROLG VROXWLRQ VWUHQJWKHQLQJ RI LQWHUVWLWLDO DWRPV & 1  JUDLQ VL]H VWUHQJWKHQLQJ GLVORFDWLRQ VWUHQJWKHQLQJ DQG SUHFLSLWDWLRQ VWUHQJWKHQLQJUHVSHFWLYHO\7KHSURSRVHGHTXDWLRQVIRUıV 31L ı,1 &1 ıJUDLQı'ıSSWDUHOLVWHGLQ(T(T(T (T(TWKHUHIRUHWKHFDOFXODWHGYDOXHVIRU5PDQGHDFKVWUHQJWKHQLQJFRQWULEXWLRQDUHOLVWHGLQWDEOH 4.2.1. solid solution strengthening )RUVROLGVROXWLRQVWUHQJWKHQLQJRIVXEVWLWXWLRQDODWRPV 0Q6L VWUHQJWKHQLQJFDOFXODWLRQWKHHTXDWLRQ>@LVXVHG

V Vc

Mn Si

˄PDVV Si˅  ˄PDVV Mn˅  MPa 

 

4.2.2. Pearlite strengthening )RU3HDUOLWHVWUHQJWKHQLQJFDOFXODWLRQWKHHTXDWLRQ>@LVXVHG

V Pearlite

 f P MPa 



 

:KHUH I3 LV YROXPH IUDFWLRQ RI 3HDUOLWH LW FDQ EH VHHQ LQ VHFWLRQ  WKHUHIRUH ıSHDUOLWH FDQ EH FDOFXODWHG DQG WKH HVWLPDWHGYDOXHVDUHOLVWHGLQWDEOH 4.3. Strengthening mechanisms for elongation )RUHORQJDWLRQVWUHQJWKHQLQJFDOFXODWLRQWKHUHLVQRGLUHFWHTXDWLRQWRHYDOXDWHKRZHYHULWLVNQRZQWKDWWKH WRWDOVWUDLQRIWHQVLOHIUDFWXUH İ7 LVSURSRUWLRQDOWRWKHHORQJDWLRQˈVRHTXDWLRQ>@LVXVHGWRSUHGLFWWKHWHQGHQF\ IRUHORQJDWLRQ

HT

˄PDVV P˅ ˄PDVVS˅  ˄PDVVSi˅     f P   ˄PDVVMn˅ 

 ˄PDVV Sn˅ d z  :KHUHI3LVYROXPHIUDFWLRQRI3HDUOLWHG]LVDYHUDJHGLDPHWHURIWKHJUDLQ

  

484

X.J. Wang et al. / Procedia Engineering 130 (2015) 475 – 486

4.4. Strengthening mechanisms for impact energy )RU,PSDFWHQHUJ\FDOFXODWLRQWKHSURSRVHGHTXDWLRQ>@LVXVHG

Cv

˄PDVV Al˅  f P   d z  V ppt   ˄PDVV S˅ 

 J ˄PDVV Zr˅



 

:KHUHI3LVYROXPHIUDFWLRQRISHDUOLWHG]LVDYHUDJHFURVVGLDPHWHUIRUIHUULWHJUDLQISFDQEHVHHQLQVHFWLRQıSSW LV FDOFXODWHG E\ HTXDWLRQ  7KHUH LV QR =U DGGLWLRQ  LQ WKH VWHHO  WKH FRQWHQW RI 6 $O FDQ EH IRXQG LQ WDEOH 7KHUHIRUHLPSDFWHQHUJ\ &Y FDQEHFDOFXODWHG 7DEOH(VWLPDWHG@ >@ >@ >@ >@ >@

0&RKHQHWDO0LFURDOOR\LQJVWHHODQGFRQWUROOHGUROOLQJ0HWDOOXUJLFDO,QGXVWU\3UHVV