给出了剪切应力强度因子和裂纹面接触区尺寸的数值结果。
The numerical results of shear stress intensity factor and the length of the crack face contact region are given.
论文最后分析了理论计算公式,研究和讨论了剪切应力与粒子体积分数、外加磁场强度和粒子的磁化强度的关系。
Finally in this paper the theoretical formula is analyzed, and the effects of the particle volume fraction, particle magnetization and the external magnetic field onthe shear stress are studied.
结果表明,磁流变液的剪切应力随着磁性固体粒子浓度增大而增大,随磁性固体粒子的磁化强度呈平方正比关系。
The results show that the shear stress increases as the rising of the particle volume fraction, and the shear stress is proportional to the square of the magnetization.
结果表明:周向剪切应力场可明显改善管材的周向强度,轴向拉伸可实现管材轴向增强。
It was found that the circular shearing and axial tensile increased the circular and axial strength of the pipe, respectively.
利用此系统对基于沸石和硅油的电流变液的极化和退极化过程 ,电流变液在不同外加电场强度和不同剪切速率条件下的剪切应力上升和撤去电场时剪切应力的下降过程进行了研究。
Experiments on the polarization and de-polarization process of ER fluids based on zeolite and silicone oil have been done. Also the rising and decaying process of shear stress were investigated.
在流动剪切应力为残余剪切强度时,对剪切带内部的局部孔隙比和平均孔隙比进行了理论分析。
Local void ratio and average void ratio in shear band are investigated as residual shear strength is reached.
在流动剪切应力为残余剪切强度时,对剪切带内部的局部孔隙比和平均孔隙比进行了理论分析。
Local void ratio and average void ratio in shear band are investigated as residual shear strength is reached.
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