根据试验结果确定了相变塑性模型。
A phenomenal model has been proposed according to the experimental results.
研究了应力对45钢珠光体相变动力学及相变塑性的影响。
The influence of applied stress on the transformation kinetics and transformation plasticity during pearlite transformation of 45 steel has been studied.
同时,在弹性范围内,相变塑性系数也随外加应力增加而增加。
In addition, the parameter of transformation plasticity increases with applied stress.
分别给出了静止裂纹和定长扩展裂纹相变塑性屏蔽的理论表达式。
The theoretical analysis of the toughening effect for both the stationary and the steady-state growing crack are given respectively.
采用热模拟方法,对EH36MOD钢焊接热影响区粗晶区(CGHAZ)的相变超塑性及其对疲劳寿命的影响进行了研究。
The transformation superplasticity in welding CGHAZ (Coarse Grain Heat Affected Zone) of EH36MOD steel and its effect on fatigue life have been studied with thermal simulating method.
在冲击加载下,晶体材料中产生了位错和塑性变形。在强冲击时还可出现相变变化。
Dislocation and plastic deformation was produced in crystal material under shock loading. phase change could occur when shock loading was strong.
还描述了UFC装置的应用实例及在开发超级钢、多相高强钢、相变诱导塑性钢等高附加值钢铁材料方面的应用潜力。
Some application examples of UFC and the potential for the production of high strength steel grades like multiphase HSS, TRIP and so on were introduced.
弹塑性基体复合材料的特征相变温度偏移随纤维体积分数的变化规律与弹性基体复合材料的变化规律不同,其热相变特性有显著的区别。
The results show that the characteristics of thermal transformation behavior of SMA composites with elastic matrix are different markedly from those with elastoplastic matrix.
本文介绍了相变超塑性焊接技术。
This paper dealt with the welding with phase transformation induced superplasticity technology.
研究了奥氏体相塑性变形和保温温度对相变动力学以及铁素体晶粒尺寸的影响。
In this study, the effects of plasticdeformation of the austenite phase and the holding temperature on thetransformation kinetics and the ferrite grain size are investigated.
对国外相变诱发塑性影响因素的研究进展做了概述,介绍了T RIP效应及其影响因素。
The research progress of transformation induced plasticity (TRIP) effect was briefly reviewed and the TRIP effect and its influencing factors were introduced.
形变带产生的机制为塑性变形,转变带产生的机制主要为再结晶、相变和元素扩散。
Deformation bands are caused by plastic formation, and transformation bands generation mainly come from re-crystallization, phase transition and the diffusion of carbon.
形变带产生的机制为塑性变形,转变带产生的机制主要为再结晶、相变和元素扩散。
Deformation bands are caused by plastic formation, and transformation bands generation mainly come from re-crystallization, phase transition and the diffusion of carbon.
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