T9I6形变热处理工艺对2519A铝合金组织、力学性能及抗弹性能的影响

来源期刊:中国有色金属学报(英文版)2014年第7期

论文作者:顾刚 叶凌英 蒋海春 孙大翔 张盼 张新明

文章页码:2295 - 2300

关键词:2519A 铝合金;T9I6形变热处理工艺;力学性能;微观组织;抗弹性能

Key words:2519A aluminum alloy; T9I6 thermo-mechanical treatment; mechanical properties; microstructure; ballistic resistance

摘    要:借助金相显微镜、透射电镜、拉伸测试、抗弹性能测试等手段研究T9I6新型形变热处理对2519A铝合金组织、力学性能和抗弹性能的影响。经T9I6工艺处理的2519A铝合金,其屈服强度、抗拉强度、伸长率分别达到501 MPa、540 MPa、14%。30 mm厚的2519A-T9I6铝合金板材的极限穿透速度达715 m/s。弹坑侧壁组织随着弹孔深度的变化而变化。T9I6热处理工艺中的断续时效阶段是2519A铝合金性能提升的关键。低温下的时效使得GP区变得密集,从而使得后续相的析出也变得更为密集、细小。

Abstract: The effects of T9I6 thermo-mechanical process on microstructures, mechanical properties and ballistic resistance of 2519A aluminum alloy were investigated by optical microscopy (OM), transmission electron microscopy (TEM), tensile tests and ballistic resistance test. After T9I6 treatment, the yield strength, tensile strength and elongation rate of 2519A aluminum alloy reach 501 MPa, 540 MPa and 14%, respectively. And the ballistic limit velocity of 2519A-T9I6 alloy (30 mm in thickness) is 715 m/s. The microstructure varies near the sidewalls of crater. The interrupted ageing contributes to these excellent properties of the alloy. During T9I6 process, the precipitation of Guinier Preston (GP) zone is finer and denser during the interrupted ageing, thus resulting in well precipitated strengthening phase.

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