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1.
Asymptotic Analysis of Temperature Field at Mode Ⅲ Crack Tip in A Elasticperfectly Plastic Material
理想弹塑性材料Ⅲ型裂纹尖端温度场的渐近分析
2.
Effects of Temperature Change on Damage Fields of Thermopiezoelectric Materials;
温度变化对热压电介质裂纹尖端力电损伤的影响分析
3.
Dynamic stress fields around crack-tip in FGMs
功能梯度材料裂纹尖端的动态应力场
4.
The st udy shows that the coupled elastic and electric fields inside piezoelectric med ia depend on the speed of the crack propagation, and have singularity at the cr ack tip.
研究表明 :介质内的耦合场与裂纹运动速度有关 ,在裂纹尖端有奇异 ;
5.
Calculation of Stress Strength Factors at Crack Tip of= Fraxinus mandshurica Rupr. by Finite Element
用有限元计算水曲柳裂纹尖端应力强度因子
6.
Study of the Mode Ⅲ Interfacial Crack-tip Considering the Strain Gadient Effect;
考虑应变梯度效应Ⅲ型界面裂纹尖端场的研究
7.
Theoretical analysis of crack-tip stress fields in FGMs under anti-plane shear impact loading
功能梯度材料受冲击载荷作用裂纹尖端应力场
8.
Room Temperature Creep at Crack Tip in SUS304 Stainless Steel and Its Influence on Fatigue Crack Growth;
SUS304不锈钢裂纹尖端的室温蠕变现象及其对疲劳裂纹扩展行为的影响
9.
RESEARCH ON THEORY AND EXPERIMENT OF THE TEMPERATURE FIELD AT CRACK TIP
裂纹扩展过程中裂尖塑性流变区温度场的理论和实验研究(英文)
10.
Finite Element Analysis of the Crack Tip Field and Structural Evolution Behavior of the Crack Tip;
裂纹尖端场的有限元分析与裂尖结构演化行为
11.
Influence of fatigue crack tip plastic zone on crack propagation behavior in TC4ELI alloy
TC4ELI合金疲劳裂纹尖端塑性区对裂纹扩展的影响
12.
STRESS FIELD AROUND THE ANTIPLANE CRACK TIP IN AN ORTHOTROPIC FUNCTIONALLY GRADED MATERIAL
正交各向异性功能梯度材料反平面裂纹尖端应力场
13.
Dynamic Stress Field Around the Mode Ⅲ Crack Tip in an Orthotropic Functionally Graded Material
正交各向异性功能梯度材料Ⅲ型裂纹尖端动态应力场
14.
Under the Mechanical Loads and the Electric Current the Crack Tip s Stress Field and Stress Intensity Factor;
外载荷作用下裂纹尖端通电时瞬间应力场及应力强度因子
15.
Finite Element Analysis of Elastoplastic Crack Tip Stress State for Assessing Constraint and Thickness Effect
弹塑性裂纹尖端应力约束及厚度效应的有限元分析
16.
Numerical calculation of strain energy release rate and mode-mixity for interface crack tip of composites
复合材料界面裂纹尖端应变能释放率及模态混合度计算
17.
All holes were positioned at the tip of the crack.
所有的铝孔都位于裂纹的尖端。
18.
BOUNDARY ELEMENT SOLUTION FOR CRACK TIP OF METAL IN ELECTROMAGNETISM-THERMAL FIELD
金属板裂纹尖端电磁热场边界元解析