1) flex temperature
屈挠温度
3) flexural temperature
挠曲温度
4) 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。
5) buckling temperature
屈曲温度
1.
Some observations were: the greater the axial restraint stiffness,the lower the buckling temperature and the failure temperature;the greater the axial restraint stiffness,the smaller displacement after the column\'s buckling;the failure temperature of a restrained column is usually higher than the buckling temperature.
约束刚度大小对钢柱抗火性能的影响包括:约束刚度比大的钢柱,其屈曲温度和破坏温度均较低;钢柱屈曲后,约束刚度比大的钢柱在变形较小时即可达到新的平衡位置;约束钢柱的破坏温度一般高于其屈曲温度,且随轴向约束刚度比的增大,破坏温度与屈曲温度之差增大。
2.
The effects of the restraint stiffness ratio,the axial load ratio and the column slenderness on the buckling temperature and failure temperature of a restrained H-section steel column under axial load in fire were studied with a calibrated finite element method(FEM) model.
利用验证的有限元模型分析了轴向约束刚度比、轴力荷载比和钢柱长细比对火灾下轴心受压H形截面约束钢柱屈曲温度和破坏温度的影响,给出了其屈曲温度和破坏温度的计算方法。
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条