Quasi static tensile experiments are done by CMT4105, and dynamic tensile experiments are done by Hopkinson tester. At room temperature, strain rate of the quasi static tensile experiments of DP1200 cold rolled steel are 1×10-4 s-1, 1×10-3 s-1, 1×10-2 s-1; strain rate of dynamic tensile experiments are 500 s-1, 1 000 s-1, 2 250 s-1. And fracture morphology analysis is done. The results reveals that with the increase of the strain rate on the conditions of quasi static tensile experiments and dynamic tensile experiments of the DP1200 cold rolled steel, the tensile strength increases from 1 205 MPa to 1 515 MPa, the yield strength increases from 723 MPa to 998 MPa and the yield strength ratio increases from 6.0 to 6.6, while the elongation decreases from 9.0% to 7.7%. Fracture morphology is toughening nest under quasi static tensile and dynamic tensile conditions. When the strain rates are 1×10-4 s-1,1×10-3 s-1,1×10-2 s-1,500 s-1,1 000 s-1,2 250 s-1,the average sizes of fracture toughness are 7.5 μm, 7.2 μm, 6.9 μm, 4.3 μm, 3.5 μm and 2.6 μm. Fracture morphology changes little with the different strain rates under quasi static tensile condition, while the increasing strain rates make the toughening nest deeper under dynamic tensile conditions.
CAI Hengjun
,
HU Jingfan
,
SONG Renbo
,
WANG Linweijie
,
YU Sanchuan
,
DAI Qifeng
. Plastic Deformation Microscopic Mechanism of Cold Rolled Dual Phase Steel DP1200 under High Strain Rate Deformation[J]. Journal of Mechanical Engineering, 2016
, 52(12)
: 23
-29
.
DOI: 10.3901/JME.2016.12.023
[1] HUH H,KANG W J,HAN S S. A tension split Hopkinson bar for investigating the dynamic behavior of sheet metals[J]. Experimental Mechanics,2002,42(1):8-17.
[2] 代启锋,宋仁伯,关小霞,等. 铁素体晶粒尺寸对铁素体—马氏体双相钢DP980动态变形行为影响[J]. 机械工程学报,2012,48(6):44-50.
DAI Qifeng,SONG Renbo,GUAN Xiaoxia,et al. Effects of ferrite grain size on dynamic deformation behavior of ferrite-martensite dual phase steel DP980[J]. Journal of Mechanical Engineering,2012,48(6):44-50.
[3] ROCHA R O,MELO T M F,PERELOMA E V,et al. Microstructural evolution at the initial stages of continuous annealing of cold rolled dual-phase steel[J]. Materials Science and Engineering A,2005,391:296-304.
[4] DAI Qifeng,SONG Renbo,GUO Zhifei,et al. Effect of continuous annealing process on mechanical properties of ultra-high strength dual phase steels[J]. Material Science and Technology,2013,21:6-13.
[5] 马鸣图,吴宝榕. 双相钢——物理和力学冶金[M]. 北京:冶金工业出版社,2009.
MA Mingtu,WU Baorong. Dual phase steel:Physical and mechanical metallurgy[M]. Beijing:Metallurgical Industry Press,2009.
[6] BOYCE B L,DILMORE M F. The dynamic tensile behavior of tough,ultrahigh-strength steels at strain-rates from 0.0002 s -1 to 200 s -1 [J]. International Journal of Impact Engineering,2009,36:263-271.
[7] 刘中华,程秀生,杨海庆. 薄壁直梁撞击时的变形及吸能特性[J]. 吉林大学学报,2006,35(1):25-30.
LIU Zhonghua,CHENG Xiusheng,YANG Haiqing. Deformation and energy absorption characteristics of thin wall straight beam under central collision[J]. Journal of Jilin University,2006,35(1):25-30.
[8] 董瀚,王毛球,翁宇庆. 高性能钢的M3组织调控理论与技术[J]. 钢铁,2010,45(7):1-7.
DONG Han,WANG Maoqiu,WENG Yuqing. Performance improvement of steels through M3 structure control[J]. Iron and Steel,2010,45(7):1-7.
[9] 徐宏伟. 国外汽车用先进高强度钢板及其标准综述[J]. 冶金标准化与质量,2007,45(2):8-13.
XU Hongwei. Summary of advanced high strength steel sheet and it’s standards in abroad[J]. Metallurgical Stardization & Quality,2007,45(2):8-13.
[10] 王瑞珍,罗海文,董瀚. 汽车用高强度钢板的最新研究进展[J]. 中国冶金,2006,16(9):1-9.
WANG Ruizhen,LUO Haiwen,DONG Han. Progress in research of high strength steel sheets for automotive use[J]. China Metallurgy,2006,16(9):1-9.
[11] 张峰,宋仁伯,刘雅政. 1000MPa级冷轧双相钢的热处理工艺与性能研究[J]. 材料热处理技术,2008,37(4):42-45.
ZHANG Feng,SONG Renbo,LIU Yazheng. Research on heat treatment process and properties of 1000MPa cold rolling dual phase steel[J]. Material & Heat Treatment,2008,37(4):42-45.
[12] 胡浙梁,王晓东,王利,等. 新型Q-P-T钢性能及其微观组织[J]. 材料热处理学报,2010,31(4):76-80.
HU Zheliang,WANG Xiaodong,WANG Li,et al. Property and microstructure of a novel Q-P-T steel[J]. Transactions of Materials and Heat Treatment,2010,31(4):76-80.
[13] 林建平,王立影,田浩彬,等. 超高强度钢板热冲压成形研究与进展[J]. 金属铸锻焊技术,2008,37(21):140-144.
LIN Jianping,WANG Liying,TIAN Haobin,et al. Research and progress of hot stamping of ultrahigh strength steel[J]. Casting Forging Welding,2008,37(21):140-144.
[14] 康永林. 现代汽车板工艺及成形理论与技术[M]. 北京:冶金工业出版社,2009.
KANG Yonglin. Theory and technology of processing and forming for advanced automobile steel sheets[M]. Beijing:Metallurgical Industry Press,2009.
[15] 索涛,邓琼,苗应刚,等. 基于Hopkinson压杆实验技术的含能材料动态力学性能测试方法研究进展[J]. 火炸药学报,2010,33(2):5-9.
SUO Tao,DENG Qiong,MIAO Yinggang,et al. Progress in experimental determination of dynamic mechanical behaviors of energetic materials based on split Hopkinson pressure bar[J]. Chinese Journal of Explosives & Propellants,2010(2):5-9.
[16] HERTELE S,WAELE W D,DENYS R. A generic stress-strain model for metallic materials with two-stage strain hardening behavior[J]. International Journal of Non-Linear Mechanics,2011,46(3):519-531.
[17] PARK K T,HAN S Y,AHN B D,et al. Ultrafine grained dual phase steel fabricated by equal channel angular pressing and subsequent intercritical annealing[J]. Scripta Materialia,2004,51:909-913.
[18] 余永宁. 材料科学基础[M]. 北京:高等教育出版社,2006.
YU Yongning. Fundamentals of materials science[M]. Beijing:Higher Education Press,2006.
