利用Hopkinson压杆对固溶及固溶+时效处理状态的Mg-3.04Li-0.77Sc合金进行高应变率冲击压缩实验,研究了固溶和时效处理后该合金的高应变率变形行为.结果表明,随着应变率提高,固溶及固溶+时效态Mg-3.04Li-0.77Sc合金的动态变形表现为应变率弱化效应.同溶处理可增大合金的最大应变,而时效处理可显著提高该合金的动态屈服强度.组织分析表明,在高应变率冲击载荷下,同溶及固溶+时效态Mg-3.04Li-0.77Sc合金产生了明显的剪切变形局部化现象.热软化及其促使的变形局部化和微裂纹沿变形带产生并扩展是该合金动态变形表现为应变率弱化效应的主要原因.
参考文献
| [1] | Meyers M A,Xu Y B,Xue Q,Perez-Prado M T,McNel-ley T R,Microstructural evolution in adiabatic shear localization in stainless steel,Acta Materialia,51(5),1307-1325(2003) |
| [2] | Mgbokwere C O,Nutt S R,Duffy J,Shear band formation in 4340 steel:A TEM study,Mechanics of Materials,17,97-110(1994) |
| [3] | Duan C Z,Wang M,Dou T,Microscopic examination of primary shear zone in high speed machining of hardened high strength steel,Manufacturing Science and Engineering,97-101,1887-1890(2010) |
| [4] | Yang Y,Wang B F,Distribution and dynamic propagation of adiabatic shear bands on the titanium side in the titanium/mild steel explosive cladding plate,Materials Science & Engineering A,452-453,273-277(2007) |
| [5] | Li Q and Xu Y B,Dynamic mechanical behavior of pure titanium,Journal of Mater.Processing Technology,156,1889-1892(2005) |
| [6] | Li Q and Xu Y B,Dynamic mechanical properties in relation to adiabatic shear band formation in Ti-alloy,Materials Science & Engineering A,358,128-133(2003) |
| [7] | Chen Y J,Meyers M A,Nesterenko V F,Spontaneous and forced shear localization in high-strain-rate deformation of tantalum,Materials Science & Engineering A,268(1 2),70-82(1999) |
| [8] | XU Yongbo,YANG Huajie,Meyers M A,Application of EBSD in the investigation of the deformation microstruc-ture induced high-strain rate loading,Chinese Journal of Materials Research,23,561-571(2009)(徐永波,阳华杰,Meyers M A,背散射电子衍射在高应变率载荷下材料形变结构研究中的应用,材料研究学报,23,561-571(2009)) |
| [9] | Xu Y B,Zhong W L,Chen Y J,Chen Y J,Shen L T,Liu Q,Bai Y L,Meyers M A,Shear localization and re-crystallization in dynamic deformation of 8090 Al-Li alloy,Materials Science & Engineering A,299,287-295(2001) |
| [10] | Xu Y B,Bai Y L and Meyers M A,Evolution of thermoplastic shear localization and related microstruc-tures in Al/SiCp composites under dynamic compression,Mater.Sci.Tech.,19,504-508(2002) |
| [11] | Xu Y B,Bai Y L,Meyers M A,Deformation,phase transformation and recrystallization in the shear bands induced by high-strain rate loading in titanium and its alloys,Mater.Sci.Tech.,22,737-746(2006) |
| [12] | Yang H J,Xu Y B,Vitali Y S,Meyers M A,Analysis and characterization of microstructural evolution in the adiabatic shear bands in Fe-Cr-Ni Alloys by EBSD,Journal of Materials Research,24,2617-2626(2009) |
| [13] | Murr L E and Pizana C,Dynamic recrystallization:The dynamic deformation regime,Metallurgical and materials transactions A,38(11),2611 -2628(2007) |
| [14] | Xu Y B,Zhang J H,Bai Y L,Meyers M A,Shear localization in dynamic deformation:Microstructural evolution,Metallurgical and materials transactions A,39,811-840(2008) |
| [15] | Walley S M,Shear localization:A historical overview.Metallurgical and materials transactions A,38(11),2629-2654(2007) |
| [16] | MAO Pingli,LIU Zheng,WANG Changyi,JIN Xin,WANG Feng,GUO Quanying,SUN Jing,Deformation mi-crostructure of AZ31B magnesium alloy under high strain rate compression,The Chinese Journal of Nonferrous Metals,19(5),816-819(2009)(毛萍莉,刘正,王长义,金鑫,王峰,郭全英,孙晶,高应变率下AZ31B镁合金的压缩变形组织,中国有色金属学报,19(5),816-819(2009)) |
| [17] | SHA Guiying,XU Yongbo,YU Tao,ZHANG Xiuli,HAN Enhou,LIU Lu,Dynamic stress-strain behavior of AZ91 Magnesium alloy and its dependence on strain rate,Transactions of Materials and Heat treatment,27(4),77-81(2006)(沙桂英,徐永波,于涛,张修丽,韩恩厚,刘路,AZ91镁合金的动态应力-应变行为及其应变率效应,材料热处理学报,27(4),77-81(2006)1 |
| [18] | Wu X L,Tan C W,Deformation localization of AZ31 magnesium alloy under high strain rate loading,Rare Met.Mater.Eng.,37(6),1111-1113(2008) |
| [19] | 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,International Journal of Impact Engineering,32,741-758(2006) |
| [20] | SUN Xiaoguang,Research on Microstructure and Properties of Magnesium-Lithium-Scandium Alloys,Thesis for Master's Degree,Shenyang Aerospace University(2010)(孙晓光,Mg-Li Sc合金的组织与性能研究,硕士学位论文,沈阳航空航天大学(2010)) |
| [21] | SUN Xiaoguang,SHA Guiying,LIU Teng,YU Tao,LIU Zhanying,Effects of Sc addition on microstructure and mechanical properties of Mg?%Li alloy,Heat Treatment of Metals,35(3),29-32(2010)(孙晓光,沙桂英,刘腾,于涛,刘占英,添加微量Sc对Mg-3%Li合金组织与性能的影响,金属热处理,35(3),29-32(2010)) |
| [22] | CHEN Zhenhua,Wrought Magnesium Alloy,(Beijing,Chemical Industry Press,2005) p.331-334(陈振华,变形镁合金,(北京,化学工业出版社,2005)P.331-334) |
| [23] | JIANG Huifeng,ZHANG Qingchuan,CHEN Xuedong,FAN Zhichao,CHEN Zhongjia,WU Xiaoping,Numerical simulation of the dynamic interactions between dislocation and solute atoms,Acta Physica Sinica,56(6),3388-3391(2007)(江慧丰,张青川,陈学东,范志超,陈忠家,伍小平,位错与溶质原子间动态相互作用的数值模拟研究,物理学报,56(6),3388-3391(2007)) |
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