1) temperature-tensional stress coupling effects
温度–拉应力共同作用
2) dynamic combined action
动力共同作用
1.
Study on dynamic combined action between ground foundation and superstructure;
地基基础与上部结构动力共同作用研究进展
3) temperature effect
温度作用效应
1.
Calculating points of temperature effect in large-span bridge;
大跨径桥梁温度作用效应计算要点
2.
Analysis of the temperature effect on pre-stressed curve concrete continuous box girder
预应力混凝土曲线连续箱梁温度作用效应分析
3.
Based on the elementary concept of temperature distribution and temperature effect,the reasons of temperature stress on the concrete slab were analyzed.
文章从混凝土结构的温度分布和温度效应的基本概念出发,分析了混凝土整体结构产生温度应力的原因,提出了ANSYS分析结构温度作用效应的材料与温度参数。
4) interaction
[英][,intə'rækʃən] [美][,ɪntə'rækʃən]
共同作用
1.
Mechanism study on subsoil-strap footing-framework interaction in mining subsidence area;
采动区地基、条形基础与框架结构共同作用机理研究
2.
Interaction of Superstructure and Foundation of Silo Structure;
筒仓上部结构与地基基础共同作用的分析
3.
Analysis of interaction between deep rectangular foundation and groundsoil;
深置矩形基础与地基共同作用解析分析
5) combined action
共同作用
1.
Considering the combined action of crane and frame support system,paper introduces an elastic support method to solve these problems successfully.
介绍了当桥式吊车行走方向在刚架平面内时,考虑吊车与刚架支撑系统共同作用,用弹性支座方法解决了吊车柱肢柱底弯矩及柱顶位移过大的的问题,保证了结构的安全稳定。
2.
In current "Design Criterion for Road Bridge & Culvert Base & Foundation",the calculating equation for bearing capability of rock-socketed pile has neglected the combined action of pile and soil.
现行《公路桥涵地基与基础设计规范》中嵌岩桩承载力计算公式忽略了覆盖层的桩土共同作用。
3.
This paper studies its mechanism from stabilization, deformation and combined action.
本文从变形、受力和共同作用等方面研究其工作机理。
6) cooperative effect
共同作用
1.
Time history response analysis of cooperative effects of the tall frame-shear wall structure-piles-soil system;
高层框架剪力墙结构与桩-土共同作用的时程响应分析
2.
Different from the traditional method, the finite element method considering the cooperative effect of foundation beam and upper shear wall produces remarkable economic benefits.
区别于传统的方法,应用有限元法考虑地基梁与上部剪力墙的共同作用来设计地基梁,其经济效益是十分显著的。
3.
The mega-frame structure has got more and more recognition because of its flexible layout and whole bearing capacity,but its dynamic response for different foundation based on cooperative effect theory is not fully studied.
巨型框架结构由于其平面布置的灵活性和以空间整体受力为特征得到了建筑工程广泛的应用,而基于共同作用机理的巨型框架结构对于不同地基类型的动力响应研究并不深入。
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