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served by high resolution transmission electron microscope.Mater [14]Park KK,Oh S T,Baeck S M,et al.In-itu deformation behav- Let,2013,91:158 ior of retained austenite in TRIP steel.Mater Sci Forum,2002, 26]Eskandari M,Zarei-Hanzaki A,Mohtadi-Bonab M A,et al. 408412:571 Grainorientation-ependent of y-s-a'transformation and twin- [15]Li W S,Gao H Y,Nakashima H,et al.In-situ study of the de- ning in a super-high-strength,high ductility austenitic Mn-steel. formation-induced rotation and transformation of retained austenite Mater Sci Eng A,2016,674:514林 颖等: 高锰钢高速冲击时剪切区 TＲIP 行为的准原位分析 1. 5 Pct Mn and 4 Pct Ni: Part II． Effect of testing temperature on stress-strain behavior and deformation-induced austenite transfor￾mation． Metall Trans A，1992，23( 4) : 1233 ［4］ Frommeyer G，Brüx U，Neumann P． Supra-ductile and high￾strength manganese-TＲIP /TWIP steels for high energy absorption purposes． ISIJ Int，2003，43( 3) : 438 ［5］ Gong X，Fan J L，Huang B Y，et al． Microstructure characteris￾tics and a deformation mechanism of fine-grained tungsten heavy alloy under high strain rate compression． Mater Sci Eng A，2010， 527( 29-30) : 7565 ［6］ Lichtenfeld J A，Van Tyne C J，Mataya M C． Effect of strain rate on stress-strain behavior of alloy 309 and 304L austenitic stainless steel． Metall Mater Trans A，2006，37( 1) : 147 ［7］ Talonen J，Hnninen H，Nenonen P，et al． Effect of strain rate on the strain-induced γ→α'-martensitic transformation and mechani￾cal properties of austenitic stainless steels． Metall Mater Trans A， 2005，36( 2) : 421 ［8］ Sun X Ｒ，Wang H Z，Yang P，et al． Mechanical behaviors and micro-shear structures of metals with different structures by high￾speed compression． Acta Metall Sin，2014，50( 4) : 387 ［9］ Sun X Ｒ，Wang H Z，Yang P，et al． Behavior of transformation￾induced plasticity during adiabatic shear bands formation in high manganese steels． Steel Ｒes Int，2014，85( 10) : 1465 ［10］ Li J，Yang H Y，Yang P． Prolonged work hardening range in high manganese TＲIP steel during adiabatic shear band forma￾tion． Mater Lett，2014，134: 180 ［11］ Wang H Z，Sun X Ｒ，Yang P，et al． Analysis of the transforma￾tion-induced plasticity effect during the dynamic deformation of high-manganese steel． J Mater Sci Technol，2015，31( 2) : 191 ［12］ Wang H Z，Sun X Ｒ，Yang P，et al． Inspection of adiabatic shear bands in high manganese TＲIP steels． Mater Sci Forum， 2013，753: 72 ［13］ Li J． The Mechanism of Adiabatic Shear Band Formation in High Manganese Steel during Dynamic Compression ［Dissertation］． Beijing: University of Science and Technology Beijing，2014 ( 李景． 高锰钢高速冲击时绝热剪切带形成机理研究［学位 论文］． 北京: 北京科技大学，2014) ［14］ Park K K，Oh S T，Baeck S M，et al． In-situ deformation behav￾ior of retained austenite in TＲIP steel． Mater Sci Forum，2002， 408-412: 571 ［15］ Li W S，Gao H Y，Nakashima H，et al． In-situ study of the de￾formation-induced rotation and transformation of retained austenite in a low-carbon steel treated by the quenching and partitioning process． Mater Sci Eng A，2016，649: 417 ［16］ Li N，Wang Y D，Liu W J，et al． In situ X-ray micro diffraction study of deformation-induced phase transformation in 304 auste￾nitic stainless steel． Acta Mater，2014，64: 12 ［17］ Yang H Y，Li J，Yang P． The change of orientation relationships between austenite and α'-martensitic during deformation in high manganese TＲIP steel． Acta Metall Sin，2015，28( 3) : 289 ［18］ Choi J Y，Lee J，Lee K，et al． Effects of the strain rate on the tensile properties of a TＲIP-aided duplex stainless steel． Mater Sci Eng A，2016，666: 280 ［19］ Das A，Tarafder S，Chakraborti P C． Estimation of deformation induced martensitic in austenitic stainless steels． Mater Sci Eng A，2011，529: 9 ［20］ Das A，Sivaprasad S，Ghosh M，et al． Morphologies and charac￾teristics of deformation induced martensitic during tensile deform￾ation of 304 LN stainless steel． Mater Sci Eng A，2008，486( 1- 2) : 283 ［21］ He Z P，He Y L，Ling Y T，et al． Effect of strain rate on de￾formation behavior of TＲIP steels． J Mater Process Technol， 2012，212( 10) : 2141 ［22］ Yang P，Liu T Y，Lu F Y，et al． Orientation dependence of mar￾tensitic transformation in high Mn TＲIP /TWIP steels． Steel Ｒes Int，2012，83( 4) : 368 ［23］ Liu T Y． Study of Morphology Evolution and Orientation Depend￾ency of High Manganese Steel during Deformation［Dissertation］． Beijing: University of Science and Technology Beijing，2011 ( 刘彤妍． 高锰 TＲIP 钢形变过程中组织形貌演变及取向依 赖性研究［学位论文］． 北京: 北京科技大学，2011) ［24］ Wang L N，Yang P，Mao W M． Analysis of martensitic transfor￾mation during tension of high manganese TＲIP steel at high strain rates． Acta Metall Sin，2016，52( 9) : 1045 ( 王丽娜，杨平，毛卫民． 高锰 TＲIP 钢高速拉伸时的马氏体 转变行为分析． 金属学报，2016，52( 9) : 1045) ［25］ Zhang W N，Liu Z Y，Zhang Z B，et al． The crystallographic mechanism for deformation induced martensitic transformation ob￾served by high resolution transmission electron microscope． Mater Lett，2013，91: 158 ［26］ Eskandari M，Zarei-Hanzaki A，Mohtadi-Bonab M A，et al． Grain-orientation-dependent of γ--ε--α' transformation and twin￾ning in a super-high-strength，high ductility austenitic Mn-steel． Mater Sci Eng A，2016，674: 514 · 317 ·