1) thermal stress effect
热应力效应
1.
In this paper,both thermal stress effect and magnetic field stress effect are studied and pull-in action among the long straight tube bundle with ohmic heating is analyzed.
本文主要从热应力效应和磁场力效应这两方面因素及其相互关系分析了长直通电加热管束产生吸合现象的原因,该研究有利于发热式管壁直接加热器的研制。
2) thermal effect
热力效应
1.
Temporal and spatial distribution characteristics of thermal effects in a tropical seasonal rainforest in Xishuangbanna, southwest of China.;
西双版纳热带季节雨林热力效应时空分布特征初探
2.
The finding showed that at the edge of canopy gap,there had not only remarkable thermal effect but also significant water vapor effect.
在雾凉季和干热季 ,对西双版纳热带季节雨林林窗进行了小气候垂直观测 ,通过对观测资料的统计分析 ,得出热带季节雨林林窗区域昼间树表温、气温、水汽压及相对湿度的时空分布和变化规律 ,发现热带季节雨林林窗边缘壁面不仅具有显著的热力效应 ,而且具有明显的水汽效应 ,并以林窗北侧边缘效应最为明显 。
3) thermal-mechanical effects
热-力学效应
1.
Some numerical examples are given which show that the present free-surface scheme is more suitable than Richtmyer s for solving thermal-mechanical effects of material subjected to electron-beam or X-ray pulse radiation.
一些数值模拟计算的结果表明,所给出的新自由面格式明显优于目前一直沿用的Richtmyer格式,尤其适用于电子束及X射线辐照材料时产生的热-力学效应的数值模拟计
4) thermodynamic effection
热动力效应
5) Thermal-mechanical effects
热力学效应
1.
Numerical simulation of thermal-mechanical effects by intense pulsed X-ray irradiation;
强脉冲X射线辐射热力学效应的数值模拟
2.
Then the thermal-mechanical effects on the steel target irradiated by the HIPIB with ion energy of 300keV,current density of 200A/cm2 are simulated numerically.
为了揭示强流脉冲离子束辐照材料表面的热力学效应,介绍了强流脉冲离子束与钢靶相互作用的理论模型。
3.
Based on thermal-mechanical equation, the thermal-mechanical effects on the target surface irradiated by HIPIB with different power density is simulated using the ABAQUS software.
为了揭示强流脉冲离子束辐照材料表面的热力学效应,在研究离子束与物质相互作用的基础上,计算不同离子在材料表面的能量沉积分布,并建立了离子束与靶材相互作用的理论模型。
6) thermodynamic effect
热力学效应
1.
This article has derived the law by which parameter changes when the temperature is different,built mathematics equations satisfied by the temperature and stress near the face of metal material irradiated by strong laser,and analysed the thermodynamic effect of the face of the material irradiated by laser.
导出格林乃森参量随温度的变化规律以及热压强的表示式 ,建立了强激光辐照下金属材料表面附近的温度和应力所满足的数学方程 ,以 Cu例 ,对激光辐照下材料表面的热力学效应作以分
补充资料:热力学同位素效应
见同位素效应。
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