The Effect of Nb on Mechanical Properties of Quenching and Partitioning Steels 被引量：1

The Effect of Nb on Mechanical Properties of Quenching and Partitioning Steels

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摘要 In order to study the effect of alloy elements on mechanical properties of quenching and partitioning steels,the Q and P heat treatments on different chemical composition steels were carried on in lab.The tensile test results indicated the strength of Nb+Ti-bearing steel was not increasing as expected,but lower than that of the Nb+Ti-free steel,and the elongation was raised to 26% from 9%.The Nb+Ti-bearing steel microstructures after tensile test were detected by TEM and found a certain amount of twins in the deformed microstructure while the deformed microstructure mainly was lath martensite in Nb+Ti-free steel,which means the addition of Nb and Ti elements could cause the twinning induced plasticity by inhibiting the phase transformation from austenite to martensite.Based on above analysis,adding trace Nb element could greatly increase the stacking fault energy of the retained austenite,which is beneficial to the formation of twins,and the formation of twins would lower the strength slightly and raise the elongation drastically. In order to study the effect of alloy elements on mechanical properties of quenching and partitioning steels,the Q and P heat treatments on different chemical composition steels were carried on in lab.The tensile test results indicated the strength of Nb+Ti-bearing steel was not increasing as expected,but lower than that of the Nb+Ti-free steel,and the elongation was raised to 26% from 9%.The Nb+Ti-bearing steel microstructures after tensile test were detected by TEM and found a certain amount of twins in the deformed microstructure while the deformed microstructure mainly was lath martensite in Nb+Ti-free steel,which means the addition of Nb and Ti elements could cause the twinning induced plasticity by inhibiting the phase transformation from austenite to martensite.Based on above analysis,adding trace Nb element could greatly increase the stacking fault energy of the retained austenite,which is beneficial to the formation of twins,and the formation of twins would lower the strength slightly and raise the elongation drastically.

作者 ZHU Shuai,KANG Yong-lin,REN Kang-kang,WANG Chuan (School of Materials Science and Engineering.University of Science and Technology Beijing,Beijing 100083,China)

出处《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2011年第S1期306-309,共4页

关键词 quenching and partitioning twinning induced plasticity NIOBIUM stacking fault energy quenching and partitioning twinning induced plasticity niobium stacking fault energy

分类号 TG156.3 [金属学及工艺—热处理]

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参考文献7

1B.X. Huang,X.D. Wang,L. Wang,Y.H. Rong.Effect of Nitrogen on Stacking Fault Formation Probability and Mechanical Properties of Twinning-Induced Plasticity Steels[J]. Metallurgical and Materials Transactions A . 2008 (4)
2G Frommeyer,U Brux,P Neumann.Supra-ductile and High-strength Manganese TRIP/TWIP Steels for High Energy Absorption Purposes. Iron and Steel Institute of Japan . 2003
3J. Speer,D. K. Matlock,B. C. Cooman.Carbon partitioning into austenite after martensite transformation. Acta Materialia . 2003
4John G Speer,Fernando C Rizzo Assuno,David K Matlock, et al.The"Quenching and Partitioning"Process: Background and Recent Progress. Materials Research Bulletin . 2005
5N I Noskva,V A Pavlov.Stacking Fault in Nickel Solid Solutin. Physics Metal and Metallography . 1962
6KANG Yong-lin.Theory and Technology of Processing and Forming for Advanced Automobile Steel Sheets. . 2009
7HUANG Bao-xu,,WANG Xiao-dong,RONG Yong-hua,et al.Mechanical Behavior and Martensitic Transformation of an Fe-Mn-Si-Al-Nb Alloy. Journal of Materials Science . 2006

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The Effect of Nb on Mechanical Properties of Quenching and Partitioning Steels 被引量：1

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