根据旋转应变及其他标志,确定本矿区两条韧性平移剪切带的剪切动向为右行剪切。
From the rotation strain and other evidences, the shear direction of the two ductile transcurrent shear zones are determined to be dextral.
该方法解决了该换能器旋转对称面上存在跃变的应力、应变给设计工作带来的困难。
The method has solved the difficulty of the saltatory stress and the strain on the rotation symmetry face of cymbal transducer for bringing the design.
本文用有限元素法对轴对称旋转板、壳进行了应力、应变分析。
By adopting finite elements method to make the the analysis of stress and strain of axisymmetric rotating shells.
通过分别调整镜面和铰链尺寸、应变双层厚度和上盖层厚度,仿真分析了镜面的线度、角度和平整度对旋转角度的影响。
Furthermore, by adjusting the size of mirror and hinge, the thickness of the strain bilayer and the top layer, which affect the rotation Angle of the mirror, simulation analysis was carried out.
其次,基于CR列式法推导出了大旋转小应变空间杆单元及平面梁单元的内力矢量及切线刚度矩阵;
Then, based on the CR formulation, the internal force vector and tangent stiffness matrix of large rotation and small strain space bar and plane beam element are deduced.
采用全量理论和幂级数形式的应力一应变曲线,导出了弹塑性强化材料旋转园盘的渐近解。
Based on the stress - strain curve uith Power series, the asymptotic nalytical solution of rotating disks uith strain-hardening is obtained from the total strain theory.
同时由应力路径旋转对模量的影响也随着剪切应变的增加而逐渐衰减。
At the same time, the effect of stress path circumgyration on shear modulus decreases gradually along with the increase of shear strain.
研究了多曲率旋转壳体胀形过程中各部分的应变分布及位移变化规律。
The strain distribution and displacement variation of multi-curvature revolving-shell in the hydro-bulge forming process was investigated by experimental method.
给出了旋转对推进剂应力应变的影响、产生的热力学方面的影响及旋转引起的气体动力学的影响等的分析计算模型。
The models of the spinning induced effects upon propellant grain stress and deformation, thermodynamics and gas dynamics were set up.
采用3维实体单元模拟激光辐照下静止及旋转充压柱壳的应力和应变分布,分析了柱壳可能发生破坏的位置和条件。
When a laser beam irradiates a cylinder shell, the irradiated area becomes softer and the cylinder shell will be destroyed.
采用3维实体单元模拟激光辐照下静止及旋转充压柱壳的应力和应变分布,分析了柱壳可能发生破坏的位置和条件。
When a laser beam irradiates a cylinder shell, the irradiated area becomes softer and the cylinder shell will be destroyed.
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