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引用次数: 1

摘要

采用改进的Bridgman法制备了纯Mg、Mg- 1zn -0.5 y、Mg-0.1 y、Mg-0.1 ce等镁合金单晶。为了确定晶体的准确取向,利用x射线衍射对每个单晶进行了极形测量。进行硬度和压缩试验,然后进行再结晶退火。研究了镁合金单晶的再结晶动力学。将制备好的单晶切割成矩形试样,在400C下固溶处理24小时,压缩变形30%。对这些冷轧板进行了再结晶退火处理,温度为300℃,时间从1到20分钟不等。对再结晶试样进行显微组织观察和硬度测量,发现三元合金单晶的静态再结晶过程非常缓慢,而二元合金单晶的静态再结晶过程非常迅速。关键词:镁,镁稀土合金,压缩试验,静态再结晶,硬度
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Static Recrystallization Behavior of Mg Alloy Single Crystals
Single crystals of Magnesium alloys such as pure Mg, Mg-1Zn-0.5Y, Mg-0.1Y, and Mg-0.1Ce alloys were successfully fabricated in this study by employing the modified Bridgman method. To determine the exact orientation of crystals, pole figure measurement using X-ray diffraction were carried out on each single crystal. Hardness and compression tests were conducted followed by subsequent recrysatllization annealing. Recrystallization kinetics of Mg alloy single crystals has been investigated. Fabricated single crystals were cut into rectangular shaped specimen and solution treated at 400C for 24 hrs, and then deformed in compression mode by 30% reduction. Annealing treatment for recrystallization has been conducted on these cold-rolled plates at temperatures of 300C for various times from 1 to 20 mins. The microstructure observation and hardness measurement conducted on the recrystallized specimens revealed that static recrystallization of ternary alloy single crystal was very slow, while recrystallization behavior of binary alloy single crystals appeared to be very fast. Keywords—Magnesium, Mg-rare earth alloys, compression test, static recrystallization, hardness.
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