采用平面应力理论来分析滚轮与轨道的接触应力问题。
The plane stress theory is applied to analyze the contact stress between cast track and roll wheel.
平面应力状态下最大主应力方向的判定在工程及教学中具有重要意义,应用平面应力理论可以找到判定其方向的快捷方法,并引用实例得到印证。
It is of great significance in engineering and teaching to determine the direction of the largest main stress under the status of plane stress.
结果表明,仅仅在平面应力的条件下HRR理论的应用是肯定的。
The results indicate that the application of the HRR theory is positive only in the plane stress case.
采用平面应力弹性理论,对吊车车轮与轨道的接触区尺寸进行理论分析。
The contact zone width of crane wheel with track is analyzed by plane stress elastic theory.
基于三阶折线位移模型,利用虚功原理导出了含初始平面应力的层合复合材料板的弯曲理论。
Based on the third order zigzag displacement model, a bending theory for laminated composite plates in an initially stressed state is derived by use of the principle of virtual work.
本文从平面应力场理论分析入手,介绍了简单褶皱的力学模式、复合构造模式,并进行了构造裂缝的理论分析。
Starting from analyzing the theory of plane stress field, the paper introduced mechanical mode for simple fold and composite structural mode and analyzed the theory of structural fracture.
当上下半平面材料参数相同时,可获得受弯曲载荷正交异性复合材料板裂纹尖端应力场,并利用有限元算例分析验证了理论结果的正确性。
When the upper and the lower half-planes are of the same parameters, the stress field of crack of orthotropic composite materials can be obtained. The derived equation is verified with FEM analysis.
介绍了位移基有限元方法 ,并在位移基有限元中嵌入了无屈服面内时本构理论 ,并提出了相应于平面应力问题的直接代入法。
Endochronic plasticity based on non-yield surface is deduced into the displacement-based finite element method and the plastic strain direct method is proposed for the plane stress problem.
本文采用了弹性理论中的楔形体理论,对均质边坡开挖过程进行了分析,在平面应变问题的基础上结合线性叠加原理得到开挖坡体的应力场。
Elastic wedge model is used for analysis of excavation of homogeneous slope. On the basis of elastic plane-strain theory and the line folds to add theory, stress field of the excavation is got.
本文采用了弹性理论中的楔形体理论,对均质边坡开挖过程进行了分析,在平面应变问题的基础上结合线性叠加原理得到开挖坡体的应力场。
Elastic wedge model is used for analysis of excavation of homogeneous slope. On the basis of elastic plane-strain theory and the line folds to add theory, stress field of the excavation is got.
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