1) heating/cooling route
温度路径
1.
To understand the behavior response of restricted steel beams under high-temperature and the influence of different heating/cooling routes and parameters,the finite element program ANSYS was used to analyze eight models with four different heating/cooling routes and four parameters.
为了探索约束钢梁的高温性能及不同温度路径和参数的影响,本文采用大型有限元程序ANSYS对四种不同温度路径和四个不同参数下约束钢梁的性能反应进行分析研究。
2) temperature-stress path
温度-应力路径
3) load-temperature path
荷载-温度路径
1.
To compare the behavior of steel frame under different load-temperature paths,the finite element program ANSYS was used to analyze the deformation rule and stress distributing rule of one story-one span steel frame under four different paths.
为了比较不同荷载-温度路径下钢框架的性能反应,采用大型有限元程序ANSYS对4种不同路径下单层单跨钢框架的变形规律及应力分布规律进行分析。
4) stress-temperature paths
应力-温度路径
1.
Experiments on the material properties of Q235 steel under different stress-temperature paths were conducted to learn the influence of stress-temperature history on the steel strain.
介绍了不同应力-温度路径下Q235钢材性能的试验,以研究应力-温度历史对钢材应变的影响。
5) shining temperature flowing path
映射温度流动路径
1.
From the analysis of the test results, the method of determining temperature increment path, shining temperature flowing path, is presented and relative formulas are given.
本文在分析试验获得的不同恒定温度下砼应力—应变曲线的基础上,通过假定,提出了映射温度流动路径,给出了具体的计算公式,并进行了试验验证。
补充资料:温度应力
分子式:
CAS号:
性质:当材料或构件的温度改变时,由于外部的约束和构件各部优发的相互约束,使构件各部分由于产生的膨胀或收缩不能自由地进行,由此产生的应力称为热应力,或称温度应力,也称变温应力。
CAS号:
性质:当材料或构件的温度改变时,由于外部的约束和构件各部优发的相互约束,使构件各部分由于产生的膨胀或收缩不能自由地进行,由此产生的应力称为热应力,或称温度应力,也称变温应力。
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