1) stress-induced phase transition
应力诱发相变
1.
With the X-ray diffraction and optical microstructure analysis,investigation was made on the feature of stress-induced phase transition at low temperature (below the room temperature ) and shape memory effect in the Fe-17Mn-10Cr-5Si-4Ni alloy.
用X射线衍射分析、显微组织观察等研究了Fe -17Mn - 10Cr - 5Si- 4Ni合金在低温 (低于室温 )下应力诱发相变的特点及其形状记忆效应。
2) stress-induced → martensitic transformation
应力诱发→马氏体相变
4) strain induced transformation
应变诱发相变
5) stress induced transformation
应力诱导相变
1.
A more complete model incorporating these factors is then presented and calculations of the martensitic quenching of a 26Cr2Ni4MoV steel cylinder have been made using the finite element method,during which transformation plasticity and stress induced transformation have been considered.
根据实测的材料参数用有限元方法对26Cr2Ni4MoV钢圆筒形试件的淬火过程进行了计算分析,着重考察了相变塑性和应力诱导相变对残余应力形成的影响。
6) stress-induced γ→ε martensitic phase transformation
应力诱发γ→ε马氏体相变
补充资料:相变诱发塑性钢
分子式:
CAS号:
性质:有塑性变形强化和相变诱发塑性的高强度高塑性钢,简称TRIP钢。其典型的化学成分为C 0.3%,Cr 8%,Mo 4%,Mn 2%,Si 2%。强度可高达1400MPa至2000MPa,并且在如此之高的强度下还具有高达20%~30%的伸长率。因此,这种钢的冲击韧性和断裂韧性很高,适用于制造低温下工作的压力容器等。
CAS号:
性质:有塑性变形强化和相变诱发塑性的高强度高塑性钢,简称TRIP钢。其典型的化学成分为C 0.3%,Cr 8%,Mo 4%,Mn 2%,Si 2%。强度可高达1400MPa至2000MPa,并且在如此之高的强度下还具有高达20%~30%的伸长率。因此,这种钢的冲击韧性和断裂韧性很高,适用于制造低温下工作的压力容器等。
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参考词条