中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
4期
839-847
,共9页
郑翊%严红革%陈吉华%余海洋%苏斌
鄭翊%嚴紅革%陳吉華%餘海洋%囌斌
정익%엄홍혁%진길화%여해양%소빈
ZK60镁合金%高应变速率超塑性%高应变速率轧制%细晶镁合金
ZK60鎂閤金%高應變速率超塑性%高應變速率軋製%細晶鎂閤金
ZK60미합금%고응변속솔초소성%고응변속솔알제%세정미합금
ZK60 magnesium alloy%high strain rate superplasticity%high strain rate rolling%fined grain magnesium alloy
研究高应变速率轧制ZK60镁合金板材在523~673 K、1×10-3~1×10-1 s-1初始应变速率下的超塑变形行为及其特征。研究发现:轧制态ZK60板材在648 K、1×10-3 s-1拉伸时,可获得最大伸长率650%,应变速率敏感性指数高达0.53;在623 K、1×10-2 s-1拉伸时,可获得伸长率584.5%,应变速率敏感性指数为0.47,呈现出较好的高应变速率超塑性。微观组织与理论分析表明:ZK60合金板材在高应变速率下的超塑性变形过程中主要的变形机制为晶界滑移机制(GBS),主要协调机制为晶界扩散控制的位错蠕变,同时还伴有一定程度的液相辅助协调机制。
研究高應變速率軋製ZK60鎂閤金闆材在523~673 K、1×10-3~1×10-1 s-1初始應變速率下的超塑變形行為及其特徵。研究髮現:軋製態ZK60闆材在648 K、1×10-3 s-1拉伸時,可穫得最大伸長率650%,應變速率敏感性指數高達0.53;在623 K、1×10-2 s-1拉伸時,可穫得伸長率584.5%,應變速率敏感性指數為0.47,呈現齣較好的高應變速率超塑性。微觀組織與理論分析錶明:ZK60閤金闆材在高應變速率下的超塑性變形過程中主要的變形機製為晶界滑移機製(GBS),主要協調機製為晶界擴散控製的位錯蠕變,同時還伴有一定程度的液相輔助協調機製。
연구고응변속솔알제ZK60미합금판재재523~673 K、1×10-3~1×10-1 s-1초시응변속솔하적초소변형행위급기특정。연구발현:알제태ZK60판재재648 K、1×10-3 s-1랍신시,가획득최대신장솔650%,응변속솔민감성지수고체0.53;재623 K、1×10-2 s-1랍신시,가획득신장솔584.5%,응변속솔민감성지수위0.47,정현출교호적고응변속솔초소성。미관조직여이론분석표명:ZK60합금판재재고응변속솔하적초소성변형과정중주요적변형궤제위정계활이궤제(GBS),주요협조궤제위정계확산공제적위착연변,동시환반유일정정도적액상보조협조궤제。
The superplastic deformation characteristics of the high strain rate rolling ZK60 magnesium alloys at temperature ranging from 523 K to 673 K and at an initial strain rates ranging from 1×10-3 s-1to 1×10-1 s-1 were investigated. The results show that the maximum elongation to failure of 650% is obtained at 648 K and the strain rate of 1×10-3 s-1in the as-rolled ZK60 magnesium alloys and its strain rate sensitivity (m) is high up to 0.53. An excellent high strain rate superplasticity with the elongation to failure of 584.5% is obtained at 623 K and the strain rate of 1×10-2 s-1and its strain rate sensitivity (m) is 0.47. The microstructure and theoretical analysis shows that, at temperature above 573 K, the dominant deformation mechanism in high strain rate superplasticity is grain boundary sliding (GBS), which was studied systematically. The dislocation creep controlled by grain boundary diffusion was considered the main accommodation mechanism, and high strain rate superplasticity was also accompanied by a certain degree of inter-granular liquid phase aiding mechanism, which was observed.