浅谈铝合金冲击性能研究进展
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- 论文作者:唐奇
- 年:2017
- 作者机构:重庆大学材料科学与工程学院;
- 论文关键词:铝合金 ; 冲击性能 ; 软件模拟
- 会议召开时间:2017-05-23
- 会议录名称:2017(第27届)重庆市铸造年会暨第十一届全国铸件挽救工程技术交流会论文集
- 语种:中文
- 分类号:TG146.21
- 学会代码:CQJG
- 会议名称:2017(第27届)重庆市铸造年会暨第十一届全国铸件挽救工程技术交流会
- 会议地点:中国重庆
- 主办单位:重庆铸造行业协会、重庆市机械工程学会铸造分会
- 学会名称:重庆市机械工程学会铸造分会
- 页数:2
- 文件大小:1356k
- 原文格式:D
- 会议级别:全国
摘要
本文主要针对目前国内外铝合金冲击性能的研究进行梳理,并对未来冲击性能实验的研究提出发展方向,提出结合软件模拟动态分析冲击过程。
引文
[1]徐云庆.7A04(LC4)超高强铝合金断裂韧性研究[D].广西大学,2008.
[2]刘赛,杨涤心,高耀进,张金雨,法瑞.高铝锌合金低温冲击韧性研究[J].矿山机械,2011,07:124-127.
[3]Samuel E,Golbahar B,Samuel A M,et al.Effect of grain refiner on the tensile and impact properties of Al–Si–Mg cast alloys[J].Materials&Design,2014,56:468-479.
[4]Alexopoulos N D,Stylianos A.Impact mechanical behaviour of Al–7Si–Mg(A357)cast aluminum alloy.The effect of artificial aging[J].Materials Science and Engineering:A,2011,528(19):6303-6312.
[5]Shokuhfar A,Nejadseyfi O.A comparison of the effects of severe plastic deformation and heat treatment on the tensile properties and impact toughness of aluminum alloy 6061[J].Materials Science and Engineering:A,2014,594:140-148.
[6]Samuel A M,Doty H W,Valtierra S,et al.Effect of grain refining and Sr-modification interactions on the impact toughness of Al–Si–Mg cast alloys[J].Materials&Design,2014,56:264-273.
[7]M.F.Ibrahim,E.Samuel,A.M.Samuel,et al.Impact toughness and fractography of Al–Si–Cu–Mg base alloys[J].Materials&Design,2011,32(7):3900-3910.
[8]Ossama Elsebaie,Agnes M.Samuel,F.H.Samuel,et al.Impact toughness of Al–Si–Cu–Mg–Fe cast alloys:Effects of minor additives and aging conditions[J].Materials&Design,2014,60:496-509.
[9]Giulio Timelli,Alberto Fabrizi,Stefano Capuzzi,et al.The role of Cr additions and Fe-rich compounds on microstructural features and impact toughness of Al Si9Cu3(Fe)diecasting alloys[J].Materials Science&Engineering A,2014,603:58-68.
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[11]Casari D,Ludwig T H,Merlin M,et al.Impact Behavior of A356 Foundry Alloys in the Presence of Trace Elements Ni and V[J].Journal of Materials Engineering and Performance,2015,24(2):894-908.
[12]郭红.提高汽车轮毂用铝合金的冲击韧性[D].重庆大学,2006.
[13]王力军.航空铝合金的冲击韧性研究[D].广西大学,2005.
[14]朱兵,沈正军.标准冲击试样和小冲击试样冲击功有限元模拟[J].石油化工设备,2013,02:23-26.
[2]刘赛,杨涤心,高耀进,张金雨,法瑞.高铝锌合金低温冲击韧性研究[J].矿山机械,2011,07:124-127.
[3]Samuel E,Golbahar B,Samuel A M,et al.Effect of grain refiner on the tensile and impact properties of Al–Si–Mg cast alloys[J].Materials&Design,2014,56:468-479.
[4]Alexopoulos N D,Stylianos A.Impact mechanical behaviour of Al–7Si–Mg(A357)cast aluminum alloy.The effect of artificial aging[J].Materials Science and Engineering:A,2011,528(19):6303-6312.
[5]Shokuhfar A,Nejadseyfi O.A comparison of the effects of severe plastic deformation and heat treatment on the tensile properties and impact toughness of aluminum alloy 6061[J].Materials Science and Engineering:A,2014,594:140-148.
[6]Samuel A M,Doty H W,Valtierra S,et al.Effect of grain refining and Sr-modification interactions on the impact toughness of Al–Si–Mg cast alloys[J].Materials&Design,2014,56:264-273.
[7]M.F.Ibrahim,E.Samuel,A.M.Samuel,et al.Impact toughness and fractography of Al–Si–Cu–Mg base alloys[J].Materials&Design,2011,32(7):3900-3910.
[8]Ossama Elsebaie,Agnes M.Samuel,F.H.Samuel,et al.Impact toughness of Al–Si–Cu–Mg–Fe cast alloys:Effects of minor additives and aging conditions[J].Materials&Design,2014,60:496-509.
[9]Giulio Timelli,Alberto Fabrizi,Stefano Capuzzi,et al.The role of Cr additions and Fe-rich compounds on microstructural features and impact toughness of Al Si9Cu3(Fe)diecasting alloys[J].Materials Science&Engineering A,2014,603:58-68.
[10]吕杰,刘伯操,杨凯,戴圣龙.高强韧铸造铝合金[J].铸造,2000,02:66-69.
[11]Casari D,Ludwig T H,Merlin M,et al.Impact Behavior of A356 Foundry Alloys in the Presence of Trace Elements Ni and V[J].Journal of Materials Engineering and Performance,2015,24(2):894-908.
[12]郭红.提高汽车轮毂用铝合金的冲击韧性[D].重庆大学,2006.
[13]王力军.航空铝合金的冲击韧性研究[D].广西大学,2005.
[14]朱兵,沈正军.标准冲击试样和小冲击试样冲击功有限元模拟[J].石油化工设备,2013,02:23-26.