高强Al-Cu-Li-X铝锂合金2A97三级时效工艺及性能研究

袁志山;陆政;谢优华;戴圣龙;刘常升

航空材料学报 ›› 2006, Vol. 26 ›› Issue (3) : 79-82.

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航空材料学报 ›› 2006, Vol. 26 ›› Issue (3) : 79-82.
论文

高强Al-Cu-Li-X铝锂合金2A97三级时效工艺及性能研究

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Study on Triple Aging and Mechanical Properties of High Strength Al-Cu-Li-X Aluminum Lithium Alloy-2A97

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摘要

以新型高强Al-Cu-Li-X铝锂合金2A97为研究对象,通过拉伸试验研究两种三级时效工艺及其改型工艺对合金性能的影响。结果表明,含有δ′相二次析出过程的三级时效和含有δ′相回溶过程的三级时效处理合金的强度和塑性达到T6峰值时效水平,三级时效改型工艺由于增加变形使前者合金的强度升高,塑性降低,使后者的强度显著提高。三级时效和单级时效合金的主要显微组织有δ′相、θ″/θ′相和T1相。三级时效改型工艺由于增加变形促进δ′相析出和δ′相回溶,同时变形促进T1相析出,从而改变了主要强化相δ′相和T1相的数量。

Abstract

The effect of triple aging-T6I6 and RRA and their modified processes on mechanical properties of novel high strength Al-Cu-Li-X aluminum-lithium alloy,2A97,was investigated through tensile test.The results showed that T6I6 and RRA yielded high strength and ductility as the same level as the peak aging,and their modified processes produced highest strength due to introduced plastic deformation.The microstructures consisted of δ′ phase,θ″/θ′ phase and T1 phase for triple aging and their modified processes.The number density of δ′ phase was changed by introduced plastic deformation which accelerated precipitation or reversion of δ′ phase after double aging,and the precipitation of T1 phase was promoted significantly.

关键词

三级时效 / 铝锂合金 / 2A97 / 双级时效 / 回溶 / RRA / T6I6 / Al-Cu-Li-X

Key words

triple aging / aluminum-lithium all / 2A97 / double aging / reversion / RRA / T6I6 / Al-Cu-Li-X

引用本文

导出引用
袁志山, 陆政, 谢优华, 戴圣龙, 刘常升. 高强Al-Cu-Li-X铝锂合金2A97三级时效工艺及性能研究[J]. 航空材料学报, 2006, 26(3): 79-82
YUAN Zhi-shan, LU Zheng, XIE You-hua, DAI Sheng-long, LIU Chang-sheng. Study on Triple Aging and Mechanical Properties of High Strength Al-Cu-Li-X Aluminum Lithium Alloy-2A97[J]. Journal of Aeronautical Materials, 2006, 26(3): 79-82

参考文献

LUMLEY R N,POLMEAR I J,MORTON A J.Interrupted aging and secondary precipitation in aluminum alloys[J].Materials Science and Technology,2003,19:1483-1490.
KERR M J,SWEET E D,BENNETT C G,et al.Effect of alkall impurities on the low temperature thermal stability of 2090 Al-Cu-Li alloys[J].Materials Science Forum,1996,217-222:1079-1084.
GHOSH K S,DAS K,CHATTERJEE V K.Studies of microstructural changes upon retrogression and reaging (RRA)treatment to 8090 Al-Li-Cu-Mg-Zr alloy[J].Materials Science and Technology,2004,20:825-834.
CSONTOS A A,GABER B,STARKE J E A.The effect of quench rate on the microstructure and properties of AF/C458 and AF/C489 Al-Li-Cu-X alloys[J].Materials Science Forum 2000,331-337:1333-1340.
GABLE B M,ZHU A W,CSONTOS A A,et al.The role of plastic deformation on the competitive microstructural evolution and mechanical properties of a novel Al-Li-Cu-X alloy[J].Journal of Light Metals,2001 (1):1-14.
WYSS R K,SANDERS J R E.Microstructure-property relationship in a 2xxx aluminum alloy with Mg addition[J].Metallurgical Transactions A,1988,19A:2523-2530.
TACK W T,HEUBAUM F H,PICKENS J R.Mechanical properties evaluations of a new ultrahigh strength Al-Li-Cu-Ag-Mg alloy[J].Scripta Metallurgica et Materialia,1990,24:1685-1690.
XIA Xiao-xin.Study ofthe hardening of Al-Li-Cu-Mg-Zr alloy 8091[J].Scripta Metallurgica et Meterialia,1992,26:1587-1592.
HUANG B P,ZHENG Z Q.Independent and combined roles of trace Mg and Ag additions of Al-Li-Cu-(Mg)-(Ag)-Zr-Ti alloys[J].Acta Mater,1998,46(12):4381-4393.
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