1) Thermal-structure coupling
热、结构耦合
2) structure-thermal coupling
结构-热耦合
3) Thermal-structural coupling
热结构耦合
1.
Thermal-structural coupling analysis of roller using ANSYS software;
基于ANSYS的辊套热结构耦合分析
2.
Based on ANSYS finite element software,the thermal-structural coupling of roller shell was analyzed and distribution rules of its stress fields were obtained.
基于ANSYS有限元软件,对辊套进行热结构耦合分析,得到辊套的应力场分布情况,并讨论了辊套疲劳失效的原因,提出了几种提高辊套使用寿命的有效途径。
4) thermal-structural coupling
热-结构耦合
1.
In order to research the effect of low temperature on test specimen deformation,the paper calculates the deformation distribution of a thermal test bearer under the environment of room temperature and low temperature with thermal-structural coupling FEM method,and analyzes the absolute and relative deformation of the test specimen under the two environments.
文章应用有限元分析软件计算某热试验支架在常温纯静力环境下及低温热-结构耦合环境下(100K)的变形分布情况,分析在这两种环境下热试验支架上试件的绝对变形量和相对变形量,从而研究低温环境对试件结构变形分布的影响。
5) coupled thermal and structural
热结构耦合
1.
The coupled thermal and structural analysis of finger seal was also conducted and the finger seal\'s hysteresis and contacting performances considering the thermal character effect were obtained.
在指尖密封热分析基础上进行了指尖密封热结构耦合分析,获得了考虑热效应的指尖密封的迟滞特性和接触性能。
6) thermal-structure coupling
热-结构耦合
1.
Analysis of the thermal-structure coupling of the band brake of anchor and mooring equipment
锚绞机带式制动器热-结构耦合分析
2.
This article used 3-D design software to establish a brake disk model that conforms to the actual size of the 300 km/h high speed electric multiple units,then used the interface between pro/e and ANSYS to import it into the ANSYS software platform,to set up a high-speed electric multiple units thermal-structure coupling calculation model under emergent working conditions.
应用三维设计软件pro/e建立了符合300 km/h高速动车组实际尺寸的制动盘模型,通过pro/e与ANSYS之间的接口将模型导入ANSYS软件平台,建立了紧急制动工况下高速动车组制动盘的热-结构耦合计算模型。
补充资料:热耦合精馏塔控制
分子式:
CAS号:
性质:多个精馏塔串联操作时,上一塔蒸汽可以做为下一塔热源,以便热量回收利用。首先要求上一塔的塔顶温度高于下一塔提供大部分能量,同时可自行压入下一塔再沸器,这种流程称为精馏塔的热耦合系统。热耦合精馏塔控制即为控制各塔操作状态以稳定热耦合操作。
CAS号:
性质:多个精馏塔串联操作时,上一塔蒸汽可以做为下一塔热源,以便热量回收利用。首先要求上一塔的塔顶温度高于下一塔提供大部分能量,同时可自行压入下一塔再沸器,这种流程称为精馏塔的热耦合系统。热耦合精馏塔控制即为控制各塔操作状态以稳定热耦合操作。
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