The changes on static stress, acquired according to the half-space elastic dislocation theory, can exist on fault plane for a long time until the next strong earthquake.
依据半弹性空间地震位错理论获得的静应力变化量,可以长期存在于邻近断层面上,直至下一次地震发生。
The results show that the damaged layer of silicon cut by WEDM mainly appears massive impurity elements, remelted and elastic distortion with a high density dislocation.
结果表明:电火花线切割单晶硅损伤层主要由杂质元素重污染层、重熔层和含有高密度位错的弹性畸变层组成;
The method simulates the crack hiding in infinitely large elastic media as dislocation loop in continuous distribution.
此方法将埋在无穷大弹性介质中裂纹,模拟为连续分布的位错环。
The elastic interaction between a screw dislocation dipole and a mode III interface crack is investigated.
研究了多晶体材料中螺型位错偶极子和界面裂纹的弹性干涉作用。
Nucleation of crack is due to dislocation pile-up mechanism and elastic anisotropy mechanism.
裂纹形核主要是通过位错堆积、晶界角源及弹性各向异性三种机理产生的。
Recently, the theory of dislocation in elastic solids has been applied to the earthquake problem.
最近,弹性固体的位错理论已经被应用于地震问题。
This paper investigates the problem of the elastic interaction between a screw dislocation dipole and a circular interface crack.
该文研究了螺型位错偶极子和圆形夹杂界面裂纹的弹性干涉作用。
The magnetic, electrical and elastic fields induced by the dislocation are derived using the image dislocation approach.
使用镜像位错法,得到了位错产生的弹性场、电场和磁场以及作用在位错上的像力。
The bifurcated cracks problem in circular region in the case of elastic longitudinal shearing was investigated by using dislocation analysis method.
采用位错分析法,研究弹性纵向剪切情况下圆域中分叉裂纹问题。
First of all, an analytical solution of dislocation is deduced, which is suitable to elastic semi-infinite plane of homogeneous, transversely isotropic media.
首先推导了横观各向同性线弹性介质半无限平面内的位错解析解。
Methods a dislocation was separated into pure edge part and pure screw part and their superposition was used to find the elastic field.
方法通过将位错分解为刃型和螺型分量,该位错引起的整个弹性场可由两个分量所引起的弹性场叠加得到。
The results show that the velocity of moving dislocation and inclusion has significant effect on the electro-magneto-elastic fields.
结果表明,运动位错速度以及夹杂对于电-磁-弹性场具有很大影响。
The results show that the velocity of moving dislocation and inclusion has significant effect on the electro-magneto-elastic fields.
结果表明,运动位错速度以及夹杂对于电-磁-弹性场具有很大影响。
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