1) interface variable
界面变量
2) diffuse interface field variable model
扩散界面场变量模型
1.
The kinetics of 2D-grain growth was simulated based on diffuse interface field variable model, in which the lattice anisotropy effect existing in the conventional models is almost no existance.
采用扩散界面场变量模型模拟二维晶粒长大的动力学过程,利用该模型可以避免常规方法中由于格点离散化带来的晶粒长大各向异性,并通过建立晶界能与梯度能量系数间的关系模拟得到了异常晶粒长大过程的微观组织演化图。
3) interfacial phase change
界面相变
4) interfacial creep
界面蠕变
5) interfacial deformation
界面变形
1.
So the effects of the capillary motion on interfacial deformation and bond strength were described accurately.
通过引入键合界面单元变形量、接触率等参量,得出劈刀运动历程对键合界面变形的影响规律,进而也揭示了其对键合强度的影响。
2.
When the capillary was put in a horizontal position,the contact angle asymmetry and the reactive wetting cycle leading to large-scale interfacial deformation were identified,accompanied with Marangoni convection.
当系统置于水平毛细管中时,界面出现接触角不对称、反应性润湿过程及界面变形,并伴随有Marangoni对流。
6) Surface consonance
界面应变
补充资料:变量与变量值
可变的数量标志和所有的统计指标称作变量。变量的数值表现称作
变量值,即标志值或指标值。变量与变量值不能误用。
变量值,即标志值或指标值。变量与变量值不能误用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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