镁合金冲击变形行为的研究进展

兵器材料科学与工程 , 2014, (5): 122-127.

镁合金冲击变形行为的研究进展

卢立伟 ^1, , 赵俊 ^2, , 刘龙飞 ^3, , 刘天模 ^4,

1.湖南科技大学机电工程学院,湖南湘潭,411201

2.湖南科技大学机电工程学院,湖南湘潭,411201

3.湖南科技大学机电工程学院,湖南湘潭,411201

4.重庆大学国家镁合金工程技术中心,重庆,400044

基金项目: 湖南省自然科学基金资助项目(14JJ3111)；校博士科研启动基金(E51353)；湖南省自然科学湘潭联合基金项目(12JJ9011)

关键词：镁合金 , 高应变率 , 变形机制 , 组织演变

Research progress of impact deformation behavior of magnesium alloys

Keywords： magnesium alloys , high strain rates , deformation mechanism , microstructure evolution

综述国内外对镁合金在冲击载荷下的力学行为及变形时组织的演变规律现状，归纳和总结出镁合金冲击力学行为和显微组织演变机制。此外，指出了镁合金在冲击载荷下研究中的匮乏范围和未来在冲击载荷下镁合金的研究重点。

The mechanical behavior and microstructure evolution of magnesium alloys under impact load are summarized and the impact mechanical behavior and microstructure evolution mechanism of magnesium alloys are analyzed and concluded. In addition,the lack of research scope and future research emphasis of magnesium alloys under impact load are pointed out.

参考文献

[1]	宁俊生,范亚夫,彭秀峰.镁合金在大变形和高应变率下塑性变形研究进展[J].材料工程,2007(09):67-73,80.
[2]	刘庆.镁合金塑性变形机理研究进展[J].金属学报,2010(11):1458-1472.
[3]	胡昌明 .镁铝合金（MB2）的动态力学性能研究[D].中国科学技术大学,2003.
[4]	Li, Q..Mechanical properties and microscopic deformation mechanism of polycrystalline magnesium under high-strain-rate compressive loadings[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2012:130-134.
[5]	Li, Q..Microstructure and deformation mechanism of 0001 magnesium single crystal subjected to quasistatic and high-strain-rate compressiveloadings[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:96-101.
[6]	吴秀玲,谭成文.冲击载荷作用下AZ31镁合金中的变形局域化[J].稀有金属材料与工程,2008(06):1111-1113.
[7]	E. El-Magd;M. Abouridouane .Characterization, modelling and simulation of deformation and fracture behaviour of the light-weight wrought alloys under high strain rate loading[J].International journal of impact engineering,2006(5):741-758.
[8]	赵峰,李玉龙,索涛,黄卫东,刘建睿.高应变率下铸造镁合金AZ91的动态压缩性能及破坏机理[J].中国有色金属学报,2009(07):1163-1168.
[9]	Wei Qian Song;Peter Beggs;Mark Easton .Compressive Strain-rate Sensitivity Of Magnesium-aluminum Die Casting Alloys[J].Materials & design,2009(3):642-648.
[10]	邹广平,唱忠良,陈思,王瑞瑞,张密林.冲击载荷作用下Mg-Li合金的力学性能及显微组织[J].稀有金属材料与工程,2012(03):514-517.
[11]	梁浩,潘复生,王敬丰,张方举,胡文军,谭云.Mg-3Al-6Zn-2Y合金的动态压缩性能研究[J].稀有金属材料与工程,2013(02):278-281.
[12]	Dudamell, N.V.;Hidalgo-Manrique, P.;Chakkedath, A.;Chen, Z.;Boehlert, C.J.;Gálvez, F.;Yi, S.;Bohlen, J.;Letzig, D.;Pérez-Prado, M.T..Influence of strain rate on the twin and slip activity of a magnesium alloy containing neodymium[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:220-231.
[13]	J. Jiang;A. Godfrey;Q. Liu .Influence of grain orientation on twinning during warm compression of wrought Mg-3Al-1Zn[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2005(12):1417-1422.
[14]	S.-H. Choi;E.J. Shin;B.S. Seong .Simulation of deformation twins and deformation texture in an AZ31 Mg alloy under uniaxial compression[J].Acta materialia,2007(12):4181-4192.
[15]	王长义,刘正,毛萍莉.AZ31B镁合金动态力学行为及变形机制[J].沈阳工业大学学报,2012(05):509-514.
[16]	吴园园,谭成文,杨勇彪,王富耻,才鸿年.高应变率下AZ31B镁合金力学行为各向异性[J].稀有金属材料与工程,2009(03):404-408.
[17]	毛萍莉,于金程,刘正,董阳,席通.挤压态 Mg-Gd-Y 镁合金动态压缩力学性能与失效行为[J].中国有色金属学报,2013(04):889-897.
[18]	Mao, P.;Liu, Z.;Wang, C..Texture effect on high strain rates tension and compression deformation behavior of extruded AM30 alloy[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2012:13-21.
[19]	YANG Yong-biao,WANG Fu-chi,TAN Cheng-wen,WU Yuan-yuan,CAI Hong-nian.Plastic deformation mechanisms ofAZ31 magnesium alloy under high strain rate compression[J].中国有色金属学会会刊（英文版）,2008(05):1043-1046.
[20]	Matthew T. Tucker;Mark F. Horstemeyer;Phillip M. Gullett .Anisotropic effects on the strain rate dependence of a wrought magnesium alloy[J].Scripta materialia,2009(3):182-185.
[21]	N.V. Dudamell;I. Ulacia;F. Galvez .Twinning and grain subdivision during dynamic deformation of a Mg AZ31 sheet alloy at room temperature[J].Acta materialia,2011(18):6949-6962.
[22]	N. Stanford;K. Sotoudeh;P.S. Bate .Deformation mechanisms and plastic anisotropy in magnesium alloy AZ31[J].Acta materialia,2011(12):4866-4874.
[23]	S.-H. Choi;D.H. Kim;H.W. Lee;B.S. Seong;K. Piao;R.Wagoner .Evolution of the deformation texture and yield locus shape in an AZ31 Mg alloysheet under uniaxial loading[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2009(1/2):38-49.
[24]	纪伟,范亚夫,陈捷,王军.温度对Mg-10Gd-2Y-0.5Zr合金动态拉伸行为及断裂机理的影响[J].材料工程,2009(10):41-44.
[25]	苏静,郭伟国,何可馨,鬲钰焯.AZ31铸造镁合金的塑性流动特征及物理概念的本构关系[J].中国有色金属学报,2011(01):44-50.
[26]	K. Ishikawa;H. Watanabe;T. Mukai .High strain rate deformation behavior of an AZ91 magnesium alloy at elevated temperatures[J].Materials Letters,2005(12):1511-1515.
[27]	H. Watanabe;K. Ishikawa .Effect of texture on high temperature deformation behavior at high strain ratesin a Mg-3Al-1Zn alloy[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2009(1/2):304-311.

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