本文利用互相配合的弹性体配合表面上位移连续条件及力的等值条件建立了计算过盈应力的有限元模型。
In this paper, the finite element model for calculating interference fit stress is formed by using displacement continuous condition and equal value of force condition on the fitting faces.
通过对身管自紧的残余应力、残余应变及残余位移分析,证明其计算结果与实验结果相当吻合。
It is proved that the computed results are in agreement with the experimental results by analysing the residual stress, strain and displacement of gun autofrettage.
对这些有缝结构进行计算分析时,接缝及裂缝状态的变化会使得接触界面的范围和界面上的应力和位移不断发生变化。
When analyzing structures with joints or cracks, state changing of these interfaces will affect stress and displacement of contact surface.
计算13种力系统下的上中切牙位移、转动中心及牙周应力分布。
The displacement, the position of the rotation center and the stress distribution of PDL were analyzed under 13 types of loading force system.
根据弹塑性力学及围岩-支护相互作用原理,分析了竖井稳定性,推导了竖井围岩与支护的应力、位移以及支护厚度的计算公式。
Based on plastoelasticity mechanics and surrounding rock-supporting principle, the stability of shaft was analyzed, and calculation formula of stress, displacement and support thickness were derived.
本文介绍了ZD_(11)型叉车门架动、静态应力及位移实测结果,并将一些实测值与计算值作了比较。
The experimental data on statical and dynamical stresses and displacement of the frame of fork Lift truck ZD_(11) are presented.
计算出了双重荷载作用下的位移量、拉应力区的深度及最大拉应力值。
The displacements, the depth of tensile stress zone and the maximum value of tensile stress under the complex load were calculated.
采用TXLX弹性力学二维有限元应力分析程序计算肱骨髁上部的应力及位移。
The experiment study the stress and displacement of supracondyle of humerus with the method of 2D finite element of TXLX flexible mechanics.
本文用边界元位移及应力外推法计算了V形切口的应力强度因子,在切口顶端附近设置小单元用以模拟切口顶端的应力奇异性。
At the top of notch, small size elements were used to simulate its stress singularity. The examples demonstrate that the present method could provide accurate results.
本文用边界元位移及应力外推法计算了V形切口的应力强度因子,在切口顶端附近设置小单元用以模拟切口顶端的应力奇异性。
At the top of notch, small size elements were used to simulate its stress singularity. The examples demonstrate that the present method could provide accurate results.
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