OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2007

长时间热暴露对Al-Cu-Mg-Ag合金微观组织的影响

, PP. 15-19

张坤,戴圣龙,黄敏,颜鸣皋

Keywords: Al-Cu-Mg-Ag,多级断续时效处理,热暴露,析出相

Full-Text Cite this paper Add to My Lib

Abstract:

采用透射电镜观察、能谱分析等手段,研究了经多级断续时效处理后的高纯Al-4.5Cu-0.4Mg-0.4Ag合金在不同热暴露条件下的微观组织演变。结果表明在不施加应力条件下,晶内主要强化相Ω能够在150℃长期稳定存在,但θ'相有所长大且析出数量明显增加;提高热暴露温度至200℃,Ω相和θ'相均发生明显长大,部分Ω相向平衡相θ转变,同时晶内析出一定数量的新相σ相;在较高热暴露温度200℃施加恒应力200MPa时,将促进θ'相和尺寸较小的Ω相向晶内回溶,并加速尺寸较大Ω相的粗化。此外,平衡相S相在晶内优先析出。

References

[1]	LUMLEY R N,POLMEAR I J,MORTON A J.Development of mechanical properties during secondary aging in aluminum alloys[J].Mater Sci Forum,2005,21(9):1025-1032.
[2]	LUMLEY R N,MORTON A J.New aluminum alloy heat treatment improves psroperties,reduces process costs[J].Industrial Heating,2004,(11):31-34.
[3]	边秀房.第9届国际铝合金会议综述[J].特种铸造及有色合金,2004,(6):43-45.
[4]	TAYLOR J A,PARKER B A.Precipitation in Al-Cu-Mg-Ag casting alloy[J].Metals Sci,1978,(12):478-481.
[5]	CHESTER R J,POLMEAR I J.The metallurgy of light alloys[M].London:Institute of Metals,1983.75-81.
[6]	POLMEAR I J,COUPER M J.Design and development of an experimental wrought aluminum alloy for use at elevated remperatures[J].Metall Trans,1988,19A(4):1027-1035.
[7]	RINGER S P,HONO K.Nucleation of precipitates in aged AlCu-Mg-(Ag) alloys with high Cu:Mg ratios[J].Acta Mater,1996,44(5):1883-1898.
[8]	POLMEAR I J,PONS G.After concorde:evaluation of creep resistance Al-Cu-Mg-Ag alloys[J].Material Science and Technology,1999,15(8):861-868.
[9]	PANTELAKIS S,KYRSANIDI A.Creep resistance of aluminum alloys for the next generation supersonic civil aircrafts[J].Theoretical and Applied Fracture Mechanics,1999,31:31-39.
[10]	XIAO D H,WANG J N.Effect of Cu content on the mechanical properties of an Al-Cu-Mg-Ag alloy[J].Journal of Alloys and Compounds,2002,343:77-81.
[11]	WILLIAMS J C,STARKE E A.Progress in structural material for aerospace systems[J].Acta Mater,2003,51:5775-5799.
[12]	肖纪美.合金相与相变[M].北京:冶金工业出版社.2004.281-310.
[13]	CHEN Zhi-guo,ZHENG Zi-qiao.Effect of lithium on the ageing characteristics and microstructure of Al-4Mg-1.5Cu-0.4Ag alloys[J].Mater Science Letter,2004,39(6):2253-2256.
[14]	CHANG CHIH-HORNG,LEE SHENG-LONG.Effect of Ag content and heat treatment on the stress corrosion cracking of Al-4.6Cu -0.3Mg alloy[J].Materials Chemistry and Physics,2005,91:454-462.
[15]	张坤,戴圣龙,黄敏,等.高纯Al-Cu-Mg-Ag合金的多级断续时效工艺研究[J].航空材料学报,2007,27(4):1-5.
[16]	HUTCHINSON C R,FAN X.On the origin of the high coarsening resistance of Ω plates in Al-Cu-Mg-Ag alloys[J].Acta Mater,2001,49:2827-2841.
[17]	LUMLEY R N,POLMEAR I J.The effect of long-term creep exposure on the microstructure and properties of an underaged Al-Cu-Mg-Ag alloy[J].Scripta Materialia,2004,50:1227-1231.
[18]	RAINFORTH W M,RYLANDS L M,JONES H.Nano-beam analysis of Ω precipitates in a Al-Cu-Mg-Ag alloy[J].Scripta Mater,1996,35(2):261-265.
[19]	MURAYAMA M,HORITA Z,HONO K.Microstructure of two-phase Al-1.7% Cu alloy deformed by equal-channel angular pressing[J].Acta Mater,2001,49:21-22.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133