浙江工贸职业技术学院学报
浙江工貿職業技術學院學報
절강공무직업기술학원학보
JOURNAL OF ZHEJIANG INDUSTRY & TRADE POLYTECHNIC
2012年
2期
40-43
,共4页
史子木%牛丽媛%孙大仁%罗承煜
史子木%牛麗媛%孫大仁%囉承煜
사자목%우려원%손대인%라승욱
AZ31镁合金%固溶强化%挤压
AZ31鎂閤金%固溶彊化%擠壓
AZ31미합금%고용강화%제압
AZ31 magnesium alloy%solution strength%extrusion
本文探讨了固溶热处理和挤压工艺对于AZ31镁合金强韧化的影响。AZ31镁合金经过固溶热处理后,微观组织观测表明晶粒明显细化,平均尺寸从250μm减小为25μm,配合挤压成型AZ31镁合金的力学性能有显著提高。
本文探討瞭固溶熱處理和擠壓工藝對于AZ31鎂閤金彊韌化的影響。AZ31鎂閤金經過固溶熱處理後,微觀組織觀測錶明晶粒明顯細化,平均呎吋從250μm減小為25μm,配閤擠壓成型AZ31鎂閤金的力學性能有顯著提高。
본문탐토료고용열처리화제압공예대우AZ31미합금강인화적영향。AZ31미합금경과고용열처리후,미관조직관측표명정립명현세화,평균척촌종250μm감소위25μm,배합제압성형AZ31미합금적역학성능유현저제고。
The influence of solution heat treatment and extrusion alloy was discussed. Microstructure analysis shows that the grain size decreased from about 250μm to 25μm, and the mechanical properties extrusion process. process on strengthening-toughening of AZ31 magnesium of the alloys after solution heat treatment has obviously of AZ31 alloy has improved significantly by subsequent