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通过力学性能测试和显微组织观察研究微量Ag和Mg对Al-3.5 Cu-1.0Li合金时效特性和显微组织的影响.结果表明:在175℃时效时,单独加Ag不影响合金的时效硬化效果,析出物形貌与Al-Cu-Li合金相似,峰值时效状态下均析出较粗大的T1相和θ'相;单独加Mg加快Al-Cu-Li合金的时效响应,提高合金的时效硬化效果,时效时析出GP区,θ'相和T1相;Ag和Mg同时添加的2050合金中,T1相的析出速度加快,析出密度增大,并以T1相为主要强化相,时效强化效果最大.Ag,Mg添加对合金的不同影响可通过溶质原子与空位、溶质原子与溶质原子之间的相互作用来解释.

参考文献

[1] Crill M J;Chellman D J;Balmuth E S et al.[J].Materials Science Forum,2006,519-521:1323.
[2] Muzzolini R;Niedzinski M;Ribes H et al.[J].Current Advances in Materials and Processes,2005,4:12.
[3] B.-P. Huang;Z.-Q.Zheng .Independent and combined roles of trace Mg and Ag additions in properties precipitation process and precipitation kinetics of Al-Cu-Li- (Mg)-(Ag)-Zr-Ti alloys[J].Acta materialia,1998(12):4381-4393.
[4] Huang J C;Ardell A J .[J].JDe Physique,1988,48(09):373.
[5] Gilmore D L;Starke E A Jr .[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1996,28:1399.
[6] Noble B;Thompson G E .[J].JMet Sci,1972,6:167.
[7] Itoh G;Cui Q;Kanno M .[J].Materials Science and Engineering,1996,A211:128.
[8] Beatrice C R S;Garlipp W;Cilense M et al.[J].Scripta Metallurgica,1995,32:23.
[9] Niesscn A K;Boer F R;Boom R et al.[J].CALPHAD-Computer Coupling of Phase Diagrams and Thermochemistry,1983,7:51.
[10] Hirosawa S;Sato T;Kamio A et al.[J].Acta Materialia,2000,48:1797.
[11] Polmear I J .[J].Inst Metals,1961,89:51.
[12] Ringer S P;Hono K;Polmear I J et al.[J].Acta Materialia,1996,44(05):1883.
[13] Murayama M;Hono K .[J].Scripta Materialia,2001,44:701.
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