1) yield temperature
屈服温度
1.
It is found that the yield temperature of the three alloy increases markedly as heating rate increases.
发现了这三种合金的屈服强度随温升率提高而明显提高的现象;分析了温升率高低对金属再结晶过程的影响;并提出了弹性热软化的估算公式及屈服温度上下限的概念。
2.
It is found that the yield temperature of the specimens increases markedly with heating rates.
发现了两种合金的屈服温度随加热速率提高而明显提高的现象以及其在不同加热速率下的再结晶特点。
2) yield temperature
屈服温度,屈服[流动]温度
3) elevated-temperature yield strength
高温屈服强度
1.
This paper describes fundamental studies on the effects of alloying elements Mo and V on elevated-temperature yield strength through the comparison between the mechanical properties and microstructure of fire-re.
通过对比合金元素含量不同的建筑用耐火钢的力学性能和显微组织,研究了合金元素Mo与V对建筑用耐火钢高温屈服强度的影响。
4) temperature-dependent yield strength
屈服强度温度相关
1.
Considering the temperature-dependent yield strength in computation,thermo-elasto-plastic contact model which combined a strain-energy gradient-based adaptive element-free Galerkin method and linear programming technique with the initial stiffness method was constructed and a correlative .
计算中考虑了屈服强度温度相关因素,将基于应变能梯度的自适应无网格法与线性规划-增量初应力法相结合,构建了热弹塑性接触自适应无网格分析模型,并给出相应的程序流程。
2.
The examples,which have considered the different conditions such as strain-hardening property of the materials,the frictional force and the frictional heat inputs and temperature-dependent yield strength,are also computed.
对是否考虑材料应变硬化,是否考虑摩擦力和热输入,是否考虑材料屈服强度温度相关等情况的两种算例进行了讨论。
5) yield point
屈服点,屈服温度;流动点,软化点
6) compressive yield strength at elevated temperature
高温压缩屈服强度
补充资料:屈服温度
分子式:
CAS号:
性质:材料可发生屈服现象的温度范围。高分子材料在此温度范围下限是脆性-延性转变温度。无定形高分子材料的此温度范围上限是玻璃化温度,结晶高分子材料还尚无定论。
CAS号:
性质:材料可发生屈服现象的温度范围。高分子材料在此温度范围下限是脆性-延性转变温度。无定形高分子材料的此温度范围上限是玻璃化温度,结晶高分子材料还尚无定论。
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