1) thermal strain
热应变
1.
The Experimental Studies of Thermal Strain of Laminated Glass by Moire Interferometry Method;
应用云纹干涉法进行层合玻璃热应变的实验研究
2.
The thermal stress and thermal strain are generated because of the different performances among them.
介绍了激光熔覆加工中形成的涂层、结合区、基体这一多层结构,以及它们之间的物理、机械性能的差异所导致的热应力及热应变,并建立了该种层结构的数学和物理模型。
3.
The results indicat e:that the thermal displacements of the weld increase with temperature;and that the thermal strain and the thermal stress also increase with temperature,just the same as what is shown in the theoretical analysis.
本文用激光散斑照相法对不同金属材料焊接件在不同温度区间产生的热位移进行了实测 ,得到焊接部位的热位移随温度的升高而增大 ,其热应变及热应力亦随温度的升高而增大 ,且与理论中的分析相符。
2) hot-pressing strain
热压应变
3) warm pre straining
热预应变
1.
By means of loading unloading cooling fracture(LUCF) tests of three point bending specimens with a pre cracking facilitated by detailed observations upon fracture surface and FEM calculations of stress and strain at crack tip, the effect of warm pre straining(WPS) on fracture behavior of TiAl intermetallic alloys with near γ and fully lamellar α+γ is investigated.
通过三点弯曲预制裂纹试样的加载 -卸载 -冷却 -断裂 ( LUCF)试验 ,并结合详细的断口观察和裂纹尖端应力、应变的有限元计算 ,研究了热预应变 ( WPS)对接近全γ和全层状α+γ的两种 Ti Al金属间化合物的断裂行为的影响 。
4) viscous strain heating
应变生热
1.
The results indicated the formationof heat anomaly with 250~900 km width of the orogenic belt were mainly controlled by adiabatic heating and viscous strain heating of the thickened lithosphere, not by heating derivedfrom radiogenic, the scratching of faults and magmatic intrusion.
研究表明造山带热异常的形成主要受绝热及加厚岩石圈应变生热影响;放射性生热只能对地壳热产生有贡献,断裂摩擦热及局部岩浆侵入在20Ma内迅速改变局域热结构,但不能成为岩石圈整体热异常形成的主导热源。
5) thermal stress and strain
热应力应变
1.
Comparative studies on the thermal stress and strain for polyacrylonitrile(PAN) precursors before and after modified during thermal-oxidation stabilization process were performed, for testifying the improvement of homogeny of structure of PAN precursors which were modified by using KMnO4.
用傅立叶红外光谱仪、广角X射线衍射仪、元素分析仪等表征了改性纤维和未改性纤维的结构变化和基本物化性质,测量了改性纤维和未改性纤维在预氧化过程中的热应力应变行为,研究了KMnO4改性对纤维结构均一性的影响。
6) variable thermal strain
变温热应变
补充资料:热应变
分子式:
CAS号:
性质:在一定的条件下,当材料受到热作用,由于温度的上升或下降,发生的几何形有关方面和尺寸变化。通常用温度形变曲线或热机械曲线等方法来描述,等于热膨胀系数和温度变化量的乘积。
CAS号:
性质:在一定的条件下,当材料受到热作用,由于温度的上升或下降,发生的几何形有关方面和尺寸变化。通常用温度形变曲线或热机械曲线等方法来描述,等于热膨胀系数和温度变化量的乘积。
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