稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2011年
11期
1887-1890
,共4页
吴立鸿%王铁豹%王盼%王利国%关绍康
吳立鴻%王鐵豹%王盼%王利國%關紹康
오립홍%왕철표%왕반%왕리국%관소강
镁合金%超塑性%织构%孪生
鎂閤金%超塑性%織構%孿生
미합금%초소성%직구%련생
Mg-alloy%superplasticity%texture%twinning
采用EBSD分析技术研究了Mg-7.0Al-0.4Zn镁合金超塑性变形机制.结果表明,超塑拉伸变形主要是通过晶界滑动和晶内塑性滑移协调完成的.变形初期,随着变形量的增大,{0002}//ED的织构明显增强,晶内滑移起主要协调变形作用.变形中后期孪生开动,接近断裂时,晶内滑移基本消失,孪生成为主要的协调变形机制,但孪生的贡献较小.
採用EBSD分析技術研究瞭Mg-7.0Al-0.4Zn鎂閤金超塑性變形機製.結果錶明,超塑拉伸變形主要是通過晶界滑動和晶內塑性滑移協調完成的.變形初期,隨著變形量的增大,{0002}//ED的織構明顯增彊,晶內滑移起主要協調變形作用.變形中後期孿生開動,接近斷裂時,晶內滑移基本消失,孿生成為主要的協調變形機製,但孿生的貢獻較小.
채용EBSD분석기술연구료Mg-7.0Al-0.4Zn미합금초소성변형궤제.결과표명,초소랍신변형주요시통과정계활동화정내소성활이협조완성적.변형초기,수착변형량적증대,{0002}//ED적직구명현증강,정내활이기주요협조변형작용.변형중후기련생개동,접근단렬시,정내활이기본소실,련생성위주요적협조변형궤제,단련생적공헌교소.
The superplastic deformation mechanism of Mg-7.0Al-0.4Zn alloy was studied by EBSD technology.Results indicate that with increasing of strain amount,the texture of {0002}//ED is strengthened obviously,and intragranular sliding plays a main role during the accommodated deformation.Twins have started at the medium and the final deformation stages; when approaching to failure,intragranular sliding vanishes,and twins replace it to play a main role.But the contribution of twins to deformation is relatively small.
