摘要
采用等通道转角挤压(ECAP)工艺在573K温度下以Bc路径对双相合金Mg-10.73Li-4.49A1-0.52Y进行1-6道次挤压变形,对变形合金进行显微组织观察、扫描电镜分析、x射线衍射测试和应变速率为1.5×10^-3 S^-1的室温拉伸实验。结果表明:该合金由(α+β)相组成,变形后晶粒沿着与挤压方向成30°-45°角且呈拉长的流线状,随挤压道次的增加,晶粒不断细化,其析出相A12Y颗粒也随道次的增加沿晶粒拉长的方向均匀化和细化。合金原始铸态无织构,1道次变形后β相的主滑移面{110}晶面织构强度最高,变形3道次和6道次后该晶面织构强度相对1道次的下降,织构向周围移动。变形到3道次,室温下抗拉强度从铸态的137.5MPa提高到最大值166.4MPa;4道次后,强度有一定程度下降。断口分析表明,经6道次变形后断口呈典型的延性断裂特征,存在更多的韧窝,并获得较大的室温伸长率(83%)。
The microstructure evolution and mechanical properties of Mg-10.73Li-4.49A1-0.52Y two-phase magnesium alloy processed by equal channel angular pressing (ECAP) from 1 pass to 6 passes at 573 K using route Bc were analyzed by OM, SEM and XRD, and the mechanical properties were tested at room temperature with strain rate of 1.5 X 10-3 s-1. The results indicate that the magnesium alloy grains consist of a phase and fl phase which are elongated to be streamline at an angle of 30°-45° to the extrusion direction after ECAP, and the initial large and disperse phases of Al2Y are termed and homogenized as the extrusion pass increases. After 1 pass, non-oriented texture of the as-cast alloy exhibits the strongest texture on the main crystal { 110} ofβ phase; after 3 and 6 passes, the texture intensity declines compared with that of 1 pass deformation, and their texture moves to periphery. After 3 passes, the tensile strength increases to the maximum of 166.4 MPa from 137.5 MPa of the as-cast at room temperature. After 4 passes, the tensile strength decreases a little. The fracture surfaces show that the fracture mode of the 6-pass ECAPed alloy shows typical ductile fracture and more dimples, and its elongation is up to 83%.
出处
《中国有色金属学报》
EI
CAS
CSCD
北大核心
2012年第9期2415-2423,共9页
The Chinese Journal of Nonferrous Metals
基金
广州市科技支撑计划项目(2009Z2-D811)
关键词
镁锂合金
等通道转角挤压
显微组织
力学性能
织构
Mg-Li alloy
equal channel angular pressing (ECAP)
microstructure
mechanical property
texture
