摘要
研究了ZM1铸造镁合金的表面滚压强化特性。结果表明,密排六方结构的ZM1镁合金的表面滚压强化效果相当显著,缺口疲劳极限提高达157%~212%,并大大超过未滚压的光滑疲劳极限。高的缺口疲劳强度可为构件提供充裕的强度裕度,缺口疲劳极限大于光滑疲劳极限可为构件的等强度设计提供可能性。滚压时该镁合金通过滑移和孪生两种方式进行塑性变形,伴随着位错密度的显著增高和引入高的残余压应力。缺口疲劳极限大幅度地提高主要归因于残余压应力有效地延缓疲劳裂纹的扩展以及显著地降低疲劳缺口敏感性的作用。此即表面形变残余压应力强化的观点。
The surface plastic deformation strengthening behaviours of magnesium alloyof ZM1 are studied.The results show that there is an excellent surface plastic defor-mation strengthening effect for magnesium alloy of ZM1 with hexagonal close-packedstructure, the increments of the notch fatigue limit is about 157%-212% after surfacerolling and is greatly above the smooth fatigue limit of non-rolling. The high notch fati-gue strength can provide extra ample strength for parts, and notch fatigue limitthat exceeded the smooth fatigue limit can also provide a possibility for equel strengthdesign of parts. Duriag surface rolling, the plastic deformation can be carried out in thesurface layer of specimens by way of both slip and twin, with increasing the dislocationdensity and the introducing the high residual compressive stresses. The impro vement ofnotch fatigue limit is mainly attributed to the high residual compressive stresses. Basedon this, a new strengthening viewpoint of residual stress is proposed, which the residualcompressive stresses play a dominant role in the fatigue strength for surface plasticdeformation parts.
出处
《机械工程学报》
EI
CAS
CSCD
北大核心
1996年第1期103-109,共7页
Journal of Mechanical Engineering
关键词
镁合金
塑性形变
疲劳强度
滚轧
Magnesium alloy
Plastic deformation
Fatigue strength
Residual stress
