Thermal stress calculation of no-crack concrete frame structuresThermal stress was compared with load stress and characteristic of thermal stress was analysized.
不允许出现裂缝的混凝土框架结构温度应力计算将温度应力与荷载产生应力进行对比,分析温度应力的特点。
First, the calculation boundary was determined according to the linkage mode of the rotor, then its elastic, thermoelastic and thermal stress analyses were made.
首先根据转子系统的连接方式确定了涡轮盘应力计算边界条件,然后对该涡轮盘进行了热弹性、弹性应力和热应力分析。
The measured thermal stress values will provide the theoretical base for calculation and modification of the structure.
试验得到的主汽阀阀壳应力值将为计算和结构改型提供一定依据。
The paper has established the calculation method of the equivalent modulus of elasticity of foundation that is based on the principles of thermal stress equivalence.
利用有限元法对温度应力进行了大量计算,在此基础上建立了以温度应力等效为原则的基顶当量回弹模量换算方法。
The difficulties of calculation are to establish the temperature field of structure under the action of ambient temperature and to calculate the thermal stress and thermal deformation.
其计算难点是建筑结构在环境温度作用下的温度场的建立与对应的温度应力和温度变形的计算。
The thermal residual stress was calculated by the finite element method. Both testing and calculation data proved the reliability of testing data.
采用有限单元法计算了反射镜坯体的热残余应力,通过对比验证了测试结果可靠性。
The temperature field and thermal deformation of the piston and ring carrier was used as the boundary in the calculation of stress field.
计算时把温度场和热变形作为结构应力计算的边界,获取活塞镶圈在热负荷状态下的综合应力场。
Study method is to adopt ANSYS-international large-scale general-purpose finite element software to realize the simulation calculation of the RCC thermal stress for Aggregate linear expansion.
在研究方法上采用国际大型通用有限元软件ANSYS建模来实现混凝土骨料线膨胀对碾压混凝土温度应力的仿真计算。
This article researches on the calculation method of thermal stress of cement concrete pavement on lean concrete base course.
本文围绕贫混凝土透水基层水泥混凝土路面温度应力计算方法展开研究。
Finite element analysis method is an effective method for calculating thermal stress, but the temperature parameters for calculation have no uniform standard.
有限元是计算温度应力的很好方法,但是对于计算中所需的温度参数取值并没有统一的标准。
Through the calculation of thermal stress values, it has been affirmed that free oscillation laser ignition of the explosive is heating ignition.
本文用一维激光热熔条件计算了与时间效应有关及无关的热应力值,从理论上证明自由振荡激光引爆机理是热起爆;
Making a simulation calculation to get the temperature field and thermal stress field of dam is an effective approach to solve it, and the temperature field simulation should come first.
进行温度、应力场仿真计算是解决这一问题的有效手段,温度场仿真计算又是首要之举。
With the IP rotor of 200mw steam turbine as an example, transient temperature and thermal stress field calculation is made Finally, some useful data and conclusions are obtained.
并对20万千瓦汽轮机中压转子作了实际计算,最终得出一些有用的数据和结论。
Calculation results indicate:the thermal stress of bottom structured of brick is higher than that structured of castable;
计算结果表明:整体浇注式包底的应力水平比砌筑式包底的高;
Calculation results indicate:the thermal stress of bottom structured of brick is higher than that structured of castable;
计算结果表明:整体浇注式包底的应力水平比砌筑式包底的高;
应用推荐