Effect of the Heat-treatment Temperature on the Mechanical Properties and Microstructural Evolution of Cold-rolled Twinning-induced Plasticity Steel 被引量：3

Effect of the Heat-treatment Temperature on the Mechanical Properties and Microstructural Evolution of Cold-rolled Twinning-induced Plasticity Steel

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摘要 TWIP steels with 70% cold-rolled reduction were heated at 500, 600, 700, 800, 900, 1000, and 1100 ℃. Then, the properties before and after heating were examined through tensile and hardness experiments. The microstructures were also analyzed by optical microscopy and transmission electron microscopy. The relationship between the properties and microstructure was examined as well. Finally, the evolution process of cold-rolled microstructures during heating was discussed in detail. Moreover, some conclusions can be drawn, and the heating evolution characteristics are described. TWIP steels with 70% cold-rolled reduction were heated at 500, 600, 700, 800, 900, 1000, and 1100 ℃. Then, the properties before and after heating were examined through tensile and hardness experiments. The microstructures were also analyzed by optical microscopy and transmission electron microscopy. The relationship between the properties and microstructure was examined as well. Finally, the evolution process of cold-rolled microstructures during heating was discussed in detail. Moreover, some conclusions can be drawn, and the heating evolution characteristics are described.

作者李大赵 WEI Yinghui SONG Jinlu HOU Lifeng

机构地区 School of Materials Scinece and Engineering School of Materials Scinece and Engineering

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2015年第2期386-391,共6页 武汉理工大学学报（材料科学英文版）

基金 Funded by the National Natural Science Foundation o f China(51201154) the Natural Science Foundation of Shanxi Province(2014011015-1)

关键词 TWIP steel cold rolled static recrystallization dislocation walls TWIP steel cold rolled static recrystallization dislocation walls

分类号 TG161 [金属学及工艺—热处理] TG142.1 [金属学及工艺—金属材料]

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参考文献1

1LI Da-zhao,WEI Ying-hui,LIU Chun-yue,HOU Li-feng,LIU Dong-feng,JIN Xian-zhe.Effects of High Strain Rate on Properties and Microstructure Evolution of TWIP Steel Subjected to Impact Loading[J].Journal of Iron and Steel Research International,2010,17(6):67-73. 被引量：14

二级参考文献17

1Grassel O, Ruger L, Frommeyer G, et al. High Strength Fe-Mn-(Al, Si) TRIP/TWIP Steels Development-Properties-Application [J]. International Journal of Plasticity, 2000, 16(3) : 1391.
2Odeshi A G, Al-ameeri S, Bassim M N. Effect of High Strain Rate on Plastic Deformation of a Low Alloy Steel Subjected to Ballistic Impact [J]. Journal of Materials Processing Technology, 2005, 162-163: 385.
3XUE Q, LIAO X Z, ZHU Y T, et al. Formation Mechanisms of Nanostructures in Stainless Steel During High-Strain-Rate Severe Plastic Deformation[J]. Materials Science and Engineering, 2005, 410A-411A: 252.
4Lee Woei-Shyan, Lin Chi-Feng, Liu Tsung-Ju. Impact and Fracture Response of Sintered 316L Stainless Steel Subjected to High Strain Rate Loading [J]. Materials Characterization, 2007, 58: 363.
5Nabil Bassim M, Panic N. High Strain Rate Effects on the Strain of Alloy Steels[J]. Journal of Materials Processing Technology, 1999, 92-93:481.
6Uenishi A, Teodosiu C, Nesterova E V. Microstructural Evolution at High Strain Rates in Solution-Harden Interstitial Free Steels [J]. Materials Science and Engineering, 2005, 400A-401A:252.
7Ryttberg K, Knutson Wedel M, Dahlman P, et al. Microstructural Evolution During Fracture Induced by High Strain Rate Deformation of 100Cr6 Steel [J]. Journal of Materials Processing Technology, 2009, 209:3325.
8ZHANG Pu-cheng, FU Rui-dong, QIU Liang, et al. Microstructure and Property of Nitrogen-Alloy High Manganese Austenitic Steel Under High Strain Rate Tension [J]. Materials Science and Engineering, 2008, 492 A: 255.
9Vercammen S, Blanpin B, De Cooman B C, et al. Cold Rolling Behavior of an Austenitie Fe-30Mn-3Al-3Si TWIP-Steel: the Importance of Deformation Twinning [J]. Acta Materialia, 2004, 52(5): 2002.
10Allain S, Chateau J P, Dahmoun D, et al. Modeling of Mechanical Twinning in a High Manganese Content Austenitic Steel [J].Materials Science and Engineering, 2004, 387A- 389A: 272.

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1LI Da-zhao1,2, WEI Ying-hui1, HOU Li-feng1, LIN Wan-ming1 (1. College of Materials and Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China,2. College of Materials and Engineering, North University of China, Taiyuan 030051, Shanxi, China).Microstructural Evolution of Surface Layer of TWIP Steel Deformed by Mechanical Attrition Treatment[J].Journal of Iron and Steel Research International,2012,19(3):38-46. 被引量：5
2黄始全,易幼平,李蓬川.23Co13Ni11Cr3Mo钢高温变形奥氏体晶粒的演化规律[J].材料热处理学报,2013,34(3):99-103.
3Zhi-ping Xiong,Xue-ping Ren,Wei-ping Bao,Jian Shu,Shu-xia Li,Hai-tao Qu.Efect of high temperature and high strain rate on the dynamic mechanical properties of Fe-30Mn-3Si-4Al TWIP steel[J].International Journal of Minerals,Metallurgy and Materials,2013,20(9):835-841. 被引量：4
4孟宪明,谢书港,方锐,乔胜华.B340-590DP双相高强钢板的动态变形行为[J].钢铁研究学报,2015,27(6):51-55. 被引量：17
5王雷,BENITO J A,CALVO J,CABRERA J M.晶粒细化对TWIP钢力学性能与织构的影响（英文）[J].材料热处理学报,2016,37(8):132-138. 被引量：3
6吕弘毅.汽车用高锰TWIP钢的研究现状[J].热加工工艺,2017,46(6):16-19. 被引量：6
7周继凯,沈大伟,潘杨.高应力率下混凝土动态黏结性能试验技术与数据处理方法[J].振动与冲击,2017,36(18):43-48. 被引量：2
8张贵杰,闫凯,林绍峰,魏建波,梁慧,张阔斌.微合金化及应变速率对TWIP钢组织与性能影响的研究进展[J].铸造技术,2019,40(12):1344-1349.
9刘元瑞,伍翠兰,谢盼,巩向鹏,沈书成.不同应变速率下Fe-29Mn-3Al-3Si钢的冲击性能及微观组织研究[J].电子显微学报,2020,39(1):19-28. 被引量：6
10郭大山,李德君,任凤章,来维亚,熊毅,方世杰.变形对石油膨胀管用TWIP钢力学性能和耐蚀性的影响[J].材料热处理学报,2020,41(6):136-143. 被引量：3

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1ZHANG Fan,MAO Xinping,BAO Siqian,ZHAO Gang,ZHAO Sixin,DENG Zhaojun,HE Meng,HUANG Fangyu,QU Xi.Microstructure Evolution and Its Effects on the Mechanical Behavior of Cold Drawn Pearlite Steel Wires for Bridge Cables[J].Journal of Wuhan University of Technology(Materials Science),2022,37(1):96-103. 被引量：1
2王吉良,朱定一,轩建伟,王建亭,王明杰.先进高强度冷轧TWIP钢的组织和力学性能[J].金属热处理,2015,40(6):21-26. 被引量：3
3YandongLIU,QiwuJIANG,GangWang,YandongWANG,A.Tidu,LiangZUO.Influence of Microstructures and Textures on the Torsional Behavior of Pearlitic Wires[J].Journal of Materials Science & Technology,2005,21(3):357-360. 被引量：14
4熊毅,赵文,孙淑华,吕知清,傅万堂.高碳钢中珠光体在温楔横轧过程中的组织演变[J].材料研究学报,2007,21(2):183-188. 被引量：11
5陈伟,李龙飞,杨王玥,孙祖庆,何建平.过共析钢温变形过程中的组织演变 Ⅰ.铁素体的等轴化及Al的影响[J].金属学报,2009,45(2):151-155. 被引量：17
6杨钢,孙利军,张丽娜,王立民,王昌.形变孪晶的消失与退火孪晶的形成机制[J].钢铁研究学报,2009,21(2):39-43. 被引量：65
7巩党国,方峰,蒋建清,胡显军,陈少慧.高碳钢氧化皮的形成及其机械剥离性能[J].材料热处理学报,2009,30(5):167-171. 被引量：18
8张晓丹,A.Godfrey,刘伟,刘庆.珠光体钢丝冷拉拔过程中微观组织及铁素体微区取向与织构演变[J].金属学报,2010,46(2):141-146. 被引量：29
9ZHANG Li,LIU Xiang-hai,SHU Kang-ying.Microstructure and Mechanical Properties of Hot-Rolled Fe-Mn-C-Si TWIP Steel[J].Journal of Iron and Steel Research International,2011,18(12):45-48. 被引量：4
10GUO Ning,LUAN BaiFeng,WANG BingShu,LIU Qing.Microstructure and texture evolution in fully pearlitic steel during wire drawing[J].Science China(Technological Sciences),2013,56(5):1139-1146. 被引量：5

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2李烨,夏鹏成,谢鲲,曹梅青,谭云亮,金晓龙.退火温度对Fe-Mn-Al-C钢组织和拉伸性能的影响[J].金属热处理,2021,46(4):77-82. 被引量：3
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1张梅,孙国胜,秦岽烊,杜林秀.冷轧304不锈钢的马氏体逆相变及奥氏体再结晶行为[J].金属热处理,2021,46(7):51-55. 被引量：4
2王凯,王荣吉,周童,彭松.Fe-Mn-C-Al系TWIP钢热处理工艺参数优化[J].金属热处理,2022,47(9):31-35.
3ZHANG Fan,MAO Xinping,BAO Siqian,ZHAO Gang,ZHAO Sixin,DENG Zhaojun,HE Meng,HUANG Fangyu,QU Xi.Characteristic of Near-surface Microstructure and Its Effects on the Torsion Performance of Cold Drawn Pearlitic Steel Wires for Bridge Cables[J].Journal of Wuhan University of Technology(Materials Science),2022,37(5):992-999.
4郭大山,肖春江,王通,莫德敏.Fe-20Mn-7Cr-0.9Mo钢与TWIP钢组织和腐蚀性能的比较研究[J].表面技术,2023,52(8):301-308.

1毛卫民,余永宁,杨萍科.Twinning-like Deformation Behaviour of Ti_3Al[J].Rare Metals,1995,14(4):282-289.
2杨列多,黄峰,郭正洪,戎咏华,陈乃录.Investigation on the Formation Mechanism of Ordered Carbide (FeMn)_3AlC in the Al Added Twinning-Induced Plasticity Steels[J].Journal of Shanghai Jiaotong university(Science),2016,21(4):406-410.
3Liqing CHEN,Yang ZHAO,Xiaomei QIN.Some Aspects of High Manganese Twinning-Induced Plasticity (TWIP) Steel, A Review[J].Acta Metallurgica Sinica(English Letters),2013,26(1):1-15. 被引量：12
4Chao Lou,Xiyan Zhang,Gaolin Duan,Jian Tu,Qing Liu.Characteristics of Twin Lamellar Structure in Magnesium Alloy during Room Temperature Dynamic Plastic Deformation[J].Journal of Materials Science & Technology,2014,30(1):41-46. 被引量：5
5LAN Liang-yun QIU Chun-lin ZHAO De-wen GAO Xiu-hua.Microstructural Evolution and Mechanical Properties of Nb-Ti Microalloyed Pipeline Steel[J].Journal of Iron and Steel Research International,2011,18(2):57-63. 被引量：5
6Wei-li Cheng,Zhong-ping Que,Jin-shan Zhang,Chun-xiang Xu,Wei Liang,Bong Sun You,Sung Soo Park.Compressive deformation behavior of an indirect-extruded Mg-8Sn-1Al-1Zn alloy[J].International Journal of Minerals,Metallurgy and Materials,2013,20(1):49-56. 被引量：1
7Xian PENG,Ding-yi ZHU,Zhen-ming HU,Ming-jie WANG,Long-long LIU,Hai-jun LIU.Effect of Carbon Content on Stacking Fault Energy of Fe-20Mn-3Cu TWIP Steel[J].Journal of Iron and Steel Research International,2014,21(1):116-120. 被引量：1
8ZHAO Qing-juan,GUO Bin,WANG Chun-ju,SHAN De-bin,YU Hai-ping,LI Chun-feng.The Research on Micro Electronic-Magnetic Forming of Sheet Metal[J].Journal of Iron and Steel Research International,2012,19(S1):434-437.
9Zhi-ping XIONG,Xue-ping REN,Jian SHU,Zhe-lei WANG,Wei-ping BAO,Shu-xia LI.Effect of Temperature on Microstructure and Deformation Mechanism of Fe-30Mn-3Si-4Al TWIP Steel at Strain Rate of 700 s^(-1)[J].Journal of Iron and Steel Research International,2015,22(2):179-184. 被引量：3
10YANG Min SONG Chang-jiang DAI Yong-xiang ZHU Liang LI Ke-feng ZHAI Qi-jie.Microstructural Evolution of Gas Atomized Fe-25Cr-3.2C Alloy Powders[J].Journal of Iron and Steel Research International,2011,18(2):75-78. 被引量：1

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