分级时效和冷热循环对2024铝合金微塑变抗力的影响
来源期刊:中国有色金属学报2000年第3期
论文作者:邵华 刘兆晶 刘君 李凤珍 武高辉 杨峰
文章页码:330 - 333
关键词:分级时效; 冷热循环; 微屈服强度; 铝合金
Key words:double-stage ageing treatment; thermal-cooling cycle; microyield strength; aluminum alloy
摘 要:用正交试验方法研究了2024铝合金的分级时效工艺,优选出了一种能获得均匀、弥散分布的沉淀强化相以改善铝合金的常规力学性能的分级时效工艺:100℃,2h+190℃, 2 h。通过将优化的分级时效工艺和冷热循环工艺相结合,可提高2024铝合金的常规力学性能和微塑变抗力。通过TEM观察探讨了分级时效对冷热循环以后2024铝合金性能的影响机制。
Abstract: The step-stage ageing processes of 2024 Al alloy were investigated by means of orthogonal test methods. A better double-stage ageing procedure of100 ℃, 2 h+190℃, 2 h was chosen out of several methods. Following this route, the precipitates disperse homogeneously in the alloy, and the mechanical properties are obviously improved. The mechanical properties and the micro-yield strength of 2024 Alalloy are improved by thermal-cooling cycling treatment following double-stage ageing. The influence mechanism of double-stage ageing on the properties of 2024 Alalloy after thermal-cooling cycling treatment was observed by TEM.