Anisotropy is one of the important problems in rock project, which controls generally all mechanical and hydraulic behaviors in rock mass.
岩体各向异性是岩石工程所面临的重要问题,是一切岩体力学及岩体水力学行为特性的主要控制因子。
In this paper, effects of material's mechanical character, microstructural anisotropy, on instantaneous temperature field is analyzed by means of the finite element method.
本文通过有限元方法计算,分析了材料力学性质细观各向异性对温度场的影响。
We have found the way of the optimal design of the structural parameter of the probe to reduce the anisotropy of the probe by establishing a spatial mechanical equation in this paper.
本文通过建立测头空间力学方程,找到了减少测头各向异性的测头结构参数最佳设计的途径。
When evaluating engineered replacements for load-bearing tissues, it is necessary to evaluate mechanical function with respect to the native tissue, including nonlinearity and anisotropy.
当评估组织工程替代物替代负荷组织时,评估原组织的机械力学功能是必要的,包括非线性和各异向性。
The forging method with horizontal V-shaped anvils(HVA) was introduced to control fibrous tissue flow direction, to improve the anisotropy of mechanical properties of axial forgings.
应用一种新的锻造工艺——水平V形砧锻造法,通过有效控制锻件的纤维流向,改善了轴类锻件力学性能的异向性。
The anisotropy during aging treatment for 2195 Al-Li alloy cold-rolling sheet is studied through tensile mechanical properties and electron fractography.
通过拉伸力学性能测试和断口形貌分析,研究了2195铝锂合金冷轧薄板的各向异性随时效时间变化的规律。
The results showed that the gradient composites had obvious anisotropy, and the mechanical performance of parallel direction of gradient interface was better than that of perpendicular direction.
结果表明:梯度型复合材料具有明显的各向异性,其平行于梯度面的力学性能优于垂直于梯度面的力学性能。
The forging method with horizontal V-shaped anvils (HVA) was introduced to control fibrous tissue flow direction, to improve the anisotropy of mechanical properties of axial forgings.
利用水平V形砧锻造法,通过有效控制锻件的纤维流向,改善轴类锻件力学性能的异向性,实现轴类锻件的等向锻造,创造普通锻造法无法达到的特殊锻造效果。
The experimental results show that the anisotropy of the mechanical property in the plane perpendicular to the wellbore axis is existing.
结果表明,沿垂直于井眼轴线平面上,岩石力学性质的各向异性是客观存在的。
It is ironing coefficient to influence anisotropy of mechanical properties.
指出了主要影响机械性能各向异性变化的是变薄系数。
It is ironing coefficient to influence anisotropy of mechanical properties.
指出了主要影响机械性能各向异性变化的是变薄系数。
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