Prospect and Research Progress of Fatigue Properties of Magnesium Alloys
摘 要
简要叙述了镁合金疲劳性能的研究概况,详细介绍了镁合金疲劳裂纹萌生和扩展机理的主要研究成果,介绍了显微组织、合金元素、环境条件、表面状态、加载条件以及温度等内外部因素对其疲劳性能的影响规律,在分析目前镁合金疲劳性能研究的不足的基础上,对镁合金疲劳性能的研究方向进行了展望.
Abstract
The studies on fatigue properties of magnesium alloys in recent years are summarized.The main achievements of fatigue crack initiation and propagation mechanism are described in detail.The influences of the internal and external factors including microstructure,alloying elements,environment condition,surface state,loading condition and temperature on fatigue properties of magnesium alloys are discribed.In addition,the deficiency of current research on fatigue properties of magnesium alloys is analyzed.Based on it,the research direction of fatigue properties are pointed out.
中图分类号 TG146.2
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收稿日期 2009/4/28
修改稿日期 2009/9/24
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备注张爱民(1983-),男,辽宁锦州人,硕士研究生.
引用该论文: ZHANG Ai-min,QUAN Gao-feng. Prospect and Research Progress of Fatigue Properties of Magnesium Alloys[J]. Materials for mechancial engineering, 2010, 34(5): 1~4
张爱民,权高峰. 镁合金疲劳性能的研究现状及展望[J]. 机械工程材料, 2010, 34(5): 1~4
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参考文献
【1】LU Y,TAHERI F,GHARGHOURI M.Study of fatigue crack incubation and propagation mechanisms in a HPDC AM60B magnesium alloy[J].Alloys Compd,2008,466:214-227.
【2】LU Y,TAHERI F,GHARGHOURI M,et al.Experimental and numerical study of the effects of porosity on fatigue crack initiation of HPDC magnesium AM60B alloy[J].Alloys Compd,2009,470:202-213.
【3】KADIRI H E,XUE Y,HORSTEMEYER M F,et al.Identification and modeling of fatigue crack growth mechanisms in a die-cast AM50 magnesium alloy[J].Acta Mater,2006,54:5061-5076.
【4】MAYER H,PAPAKYRIACOU M,ZETTL B,et al.Endu-rance limit and threshold stress intensity of die cast magnesium and aluminium alloys at elevated temperatures[J].Fatigue,2005,27:1076-1088.
【5】ORSTEMEYER M F,YANG N,GALL K,et al.High cycle fatigue of a die cast AZ91E-T4 magnesium alloy[J].Acta Mater,2004,52:1327-1336.
【6】OGAREVIC V V,STEPHENS R I.Fatigue of magnesium alloys[J].Annu Rev Mater Sci,1990,20:141-177.
【7】NAN Z Y,ISHIHARA S,GOSHIMA T,et al.Scanning probe microscope observations of fatigue process in magnesium alloy AZ31 near the fatigue limit[J].Scripta Mater,2004,50:429-434.
【8】UEMATSU Y,TOKAJI K,KAMAKURA M,et al.Effect of extrusion conditions on grain refinement and fatigue behaviour in magnesium alloys[J].Mater Sci,2006,434:131-40.
【9】YANG F,YIN S M,LI S X,et al.Crack initiation mechanism of extruded AZ31 magnesium alloy in the very high cycle fatigue regime[J].Mater Sci,2008,491:131-136.
【10】XUE Y,HORSTEMEYER M F,MCDOWELL D L,et al.Microstructure-based multistage fatigue modeling of a cast AE44 magnesium alloy[J].Fatigue,2007,29:666-676.
【11】SAJURI Z B,MIYASHITA Y,HOSOKAI Y,et al.Effects of Mn content and texture on fatigue properties of as-cast and extruded AZ61 magnesium alloys[J].Inter J Mech Sci,2006,48(2):198-209.
【12】NAN Z Y,ISHIHARA S,MCEVILY A J,et al.On the sharp bend of the S-curve and the crack propagation behavior of extruded magnesium alloy[J].Scripta Mater,2007,56:649-52.
【13】杨友,刘勇兵,杨晓红,等.稀土元素对AZ91D压铸镁合金高周疲劳性能的影响[J].金属热处理,2006,31(7):18-22.
【14】SOMEKAWA H,MUKAI T.Fracture toughness in Mg-Al-Zn alloy processed by equal-channel-angular extrusion[J].Scripta Mater,2006,54:633-638.
【15】YANG Y,LIU Y B.High cycle fatigue characterization of two die-cast magnesium alloys[J].Mater Character,2008,59:567-570.
【16】刘文才,董杰,张平,等.镁合金疲劳性能的研究现状及展望[J].轻金属,2008(7):44-49.
【17】ELIEZER A,CUTMAN E M,ABRAMOV E,et al.Corrosion of fatigue of die cast and extruded magnesium alloys[J].J Light Metals,2001,1(3):179-186.
【18】HILPERT M,WAGNER L.Corrosion fatigue behavior of the high-strength magnesium alloy AZ80[J].Materials Engineering and Performance,2000,9(4):402-407.
【19】SERTSYUK V A,GRINBERG N M.Fatigue fracture of some magnesium alloys in vacuum at room and low temperatures[J].Materials Science,1980,16(4):362-365.
【20】WU L,JAIN A,BROWN D W,et al.Twinning-detwinning behavior during the strain-controlled low-cycle fatigue testing of a wrought magnesium alloy ZK60A[J].Acta Mater,2008,56:688-695.
【21】YIN S M,YANG H J,LI S X,et al.Cyclic deformation behavior of as-extruded Mg-3%Al-1%Zn[J].Scripta Mater,2008,58:751-754.
【22】ISHIHARA S,NAN Z,GOSHIMA T.Effect of microstructure on fatigue behavior of AZ31 magnesium alloy[J].Mater Sci Eng,2007,468:214-222.
【23】WAGNER L.Mechanical surface treatments on titanium,aluminum and magnesium alloys[J].Mater Sci Eng A,1999,263(2):210-216.
【24】ZHANG P,LINDEMANN J.Influence of shot peening on high cycle fatigue properties of the high-strength wrought magnesium alloy AZ80[J].Scripta Mater,2005,52(6):485-490.
【25】ZHANG P,LINDEMANN J.Effect of roller burnishing on the high cycle fatigue performance of the high-strength wrought magnesium alloy AZ80[J].Scripta Mater,2005,52(10):1011-1015.
【2】LU Y,TAHERI F,GHARGHOURI M,et al.Experimental and numerical study of the effects of porosity on fatigue crack initiation of HPDC magnesium AM60B alloy[J].Alloys Compd,2009,470:202-213.
【3】KADIRI H E,XUE Y,HORSTEMEYER M F,et al.Identification and modeling of fatigue crack growth mechanisms in a die-cast AM50 magnesium alloy[J].Acta Mater,2006,54:5061-5076.
【4】MAYER H,PAPAKYRIACOU M,ZETTL B,et al.Endu-rance limit and threshold stress intensity of die cast magnesium and aluminium alloys at elevated temperatures[J].Fatigue,2005,27:1076-1088.
【5】ORSTEMEYER M F,YANG N,GALL K,et al.High cycle fatigue of a die cast AZ91E-T4 magnesium alloy[J].Acta Mater,2004,52:1327-1336.
【6】OGAREVIC V V,STEPHENS R I.Fatigue of magnesium alloys[J].Annu Rev Mater Sci,1990,20:141-177.
【7】NAN Z Y,ISHIHARA S,GOSHIMA T,et al.Scanning probe microscope observations of fatigue process in magnesium alloy AZ31 near the fatigue limit[J].Scripta Mater,2004,50:429-434.
【8】UEMATSU Y,TOKAJI K,KAMAKURA M,et al.Effect of extrusion conditions on grain refinement and fatigue behaviour in magnesium alloys[J].Mater Sci,2006,434:131-40.
【9】YANG F,YIN S M,LI S X,et al.Crack initiation mechanism of extruded AZ31 magnesium alloy in the very high cycle fatigue regime[J].Mater Sci,2008,491:131-136.
【10】XUE Y,HORSTEMEYER M F,MCDOWELL D L,et al.Microstructure-based multistage fatigue modeling of a cast AE44 magnesium alloy[J].Fatigue,2007,29:666-676.
【11】SAJURI Z B,MIYASHITA Y,HOSOKAI Y,et al.Effects of Mn content and texture on fatigue properties of as-cast and extruded AZ61 magnesium alloys[J].Inter J Mech Sci,2006,48(2):198-209.
【12】NAN Z Y,ISHIHARA S,MCEVILY A J,et al.On the sharp bend of the S-curve and the crack propagation behavior of extruded magnesium alloy[J].Scripta Mater,2007,56:649-52.
【13】杨友,刘勇兵,杨晓红,等.稀土元素对AZ91D压铸镁合金高周疲劳性能的影响[J].金属热处理,2006,31(7):18-22.
【14】SOMEKAWA H,MUKAI T.Fracture toughness in Mg-Al-Zn alloy processed by equal-channel-angular extrusion[J].Scripta Mater,2006,54:633-638.
【15】YANG Y,LIU Y B.High cycle fatigue characterization of two die-cast magnesium alloys[J].Mater Character,2008,59:567-570.
【16】刘文才,董杰,张平,等.镁合金疲劳性能的研究现状及展望[J].轻金属,2008(7):44-49.
【17】ELIEZER A,CUTMAN E M,ABRAMOV E,et al.Corrosion of fatigue of die cast and extruded magnesium alloys[J].J Light Metals,2001,1(3):179-186.
【18】HILPERT M,WAGNER L.Corrosion fatigue behavior of the high-strength magnesium alloy AZ80[J].Materials Engineering and Performance,2000,9(4):402-407.
【19】SERTSYUK V A,GRINBERG N M.Fatigue fracture of some magnesium alloys in vacuum at room and low temperatures[J].Materials Science,1980,16(4):362-365.
【20】WU L,JAIN A,BROWN D W,et al.Twinning-detwinning behavior during the strain-controlled low-cycle fatigue testing of a wrought magnesium alloy ZK60A[J].Acta Mater,2008,56:688-695.
【21】YIN S M,YANG H J,LI S X,et al.Cyclic deformation behavior of as-extruded Mg-3%Al-1%Zn[J].Scripta Mater,2008,58:751-754.
【22】ISHIHARA S,NAN Z,GOSHIMA T.Effect of microstructure on fatigue behavior of AZ31 magnesium alloy[J].Mater Sci Eng,2007,468:214-222.
【23】WAGNER L.Mechanical surface treatments on titanium,aluminum and magnesium alloys[J].Mater Sci Eng A,1999,263(2):210-216.
【24】ZHANG P,LINDEMANN J.Influence of shot peening on high cycle fatigue properties of the high-strength wrought magnesium alloy AZ80[J].Scripta Mater,2005,52(6):485-490.
【25】ZHANG P,LINDEMANN J.Effect of roller burnishing on the high cycle fatigue performance of the high-strength wrought magnesium alloy AZ80[J].Scripta Mater,2005,52(10):1011-1015.
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