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1)  complex stress intensity coefficient
复应力强度系数
2)  stress intensity coefficient
应力强度系数
1.
Influence of rolling contact fatigue loads on stress intensity coefficients of rail surface contact fatigue crack
滚动接触疲劳载荷对铁轨表面接触疲劳裂纹应力强度系数的影响
2.
A numerical method for determination of multiple stress singularity orders and corresponding stress intensity coefficients is presented in this paper, by the example of plane problems with two stress singularity orders, based on the numerical solutions obtained by common numerical procedures such as FEM and BEM.
以具有两个应力奇异性次数的平面问题为例 ,提出了一种利用普通的数值分析结果确定奇异点附近多重应力奇异性的各阶次数以及相应的应力强度系数的数值分析方法。
3)  stress intensity factor
应力强度系数,应力强度因子
4)  stress intensity factor
应力强度水平系数
1.
SIF(stress intensity factors) based on the viewpoint of design by analysis are worked out with parametric analysis,and SIF curves are given out.
随后对一系列结构尺寸的斜锥壳进行了计算,整理了斜锥壳大小端转角过渡区在各计算参数下基于分析设计的应力强度水平系数。
5)  SIF stress intensity factor
应力强度系数的缩略语
6)  complex stress intensity factor
复应力强度因子
1.
The three-point bending fracture mechanics experiments and finite element analysis had been used to compute the complex stress intensity factor ( K ) of the interfacial crack between LX88A coating and Q345 steel.
将三点弯曲断裂力学试验与有限元分析(FEA)结合起来计算LX88A涂层与Q345钢界面裂纹的复应力强度因子。
2.
Through computing,complex stress intensity factor K which is used to evaluate the capability of bimaterial resisting fracture is obtained successfully.
首先利用有限元计算得到平面应力条件下裂纹尖端位移场 ,求出裂尖附近复应力强度因子主导区域内对应点的相对位移 ,再辅以传统计算方法得到衡量双材料抵抗断裂能力的复应力强度因子K ,并利用双材料界面断裂有关理论和基本公式 ,求得相关的断裂力学参量 ,对计算结果进行了实验验证 。
3.
By using a well-known relation between the cracktip energy release rafts and the complex stress intensity factor, a closed-formsolution for complex stress intensity in terms of external loading and a modemix parameter for fairly, general composite laminates is given.
利用裂纹尖端能量释放率和复应力强度因子间的关系,给出最一般的复合材料层合板,在相应外荷载和模型混合参数下的复应力强度因子的一个封闭形式的解。
补充资料:应力强度因子
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性质:反映裂纹尖端附近区域应力场强度的物理量称为应力强度因子。它和裂纹大小、形状以及外应力有关。

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