A new system for the in situ extraction of the material parameters of MEMS films is presented.
给出了一种MEMS薄膜材料参数的在线测试技术与方法。
On the basis of this, the effects of material parameters on safety factor of rock slope are studied.
在此基础上,研究了材料参数对岩质边坡安全系数的影响。
Effects of end conditions of the vessel and material parameters on the residual stress were studied.
通过改变端部边界条件和材料参数研究了容器端部形式和材料参数对容器残余应力的影响。
The deduced formula, which is independent of crack geometry, bears a relation to material parameters.
公式与裂纹几何无关,仅与材料参数有关。
The proposed algorithm is used to identify the material parameters of orthotropic plate with a circular hole.
然后采用本文提出的方法识别正交各向异性圆孔方板的材料参数。
A mixed numerical-experimental model method was proposed to estimate the panels equivalent elastic material parameters.
本文中采用数值-试验混合模型方法对该种夹层板的等效材料性能参数进行了优化反求。
A measurement system for in-situ extracting material parameters of MEMS thin film was proposed based on Data Acquisition.
建立了一套基于数据采集的MEMS薄膜材料参数在线测试系统。
The construction of FEM model, material parameters, boundary conditions and loading definition are introduced in details.
详细介绍了有限元模型的建立,材料参数、边界条件及载荷的定义。
This case shows the method can be applied to the back analysis and identification of the material parameters for concrete dam.
实例表明,随机反分析方法能较好地应用于混凝土坝材料参数的反演和识别中。
Finally, the actual dam displacement was input into the trained genetic neural network to obtain the real material parameters.
最后,实际的大坝位移是训练有素的遗传神经网络的输入获得的真材实料的参数。
Based on the boundary element method, an inverse method is developed to identify the material parameters of orthotropic plane problem.
以边界元计算为基础,提出正交各向异性平面问题材料参数识别的反分析方法。
The regularized least square iterative algorithm has been presented for the estimation of material parameters of complicated structures.
本文提出了求解复杂结构弹塑性物性辨识问题的正则化最小二乘迭代反演算法。
The simulated annealing algorithm is used to determine material parameters of fluid-saturated porous media from surface dynamic response data.
本文研究了模拟退火算法在流体饱和孔隙介质参数反演中的应用。
Many basic circuit models are fabricated, and the material parameters are selected to make the devices reaching its highest working frequency.
做了大量基本电路模型,选取了使器件达到最高工作频率的每一个元件的具体参数。
The relationship between limit loads and the angle of load is obtained. And the effects of material parameters on limit loads are also studied.
并计算了不同加载角度根土复合体的极限载荷,分析了影响根土复合体极限载荷的若干因素。
In computational procedures, variations of material properties are simulated by adopting material parameters of Gauss point in quadrature elements.
在计算过程中,取积分网格中高斯点的材料常数来模拟材料特性的变化。
The variation of screw dislocation forces for correlative material parameters and different radians of crack or rigid line is discussed particularly.
并讨论了位错力随材料相关参数,非理想界面参数,裂纹和刚性线弧度的变化规律。
Based on the tube bending FEM simulation model, the tube bending springback rule under the different craft parameters and the material parameters was studied.
基于管弯曲回弹有限元模拟模型研究了弯曲工艺参数和材料参数对管弯曲回弹的影响规律。
After the model is divided into elements by 3D brick unit and input the material parameters, the solution will be done under the restrain conditions and loads.
对物理模型进行了三维有限元网格划分,配备材料特性参数,选用三维块状单元进行有限元计算分析,得到在外力作用下的应力分布和其它相关结果。
The test results indicated that both of the load eccentricity ratio and the material parameters affected the carrying capacity of CFST columns under eccentric load.
试验结果表明,材料参数和偏心率对钢管混凝土偏压构件受力性能与承载力均有影响。
Soil' s heat response characteristic at different depth is explored with different frequency, thermal wave in different amplitudes, and different material parameters.
研究了不同频率、振幅的热波及不同物性参数的土壤对不同深度处热波响应特性的影响。
Backscattering properties for the coated conducting flat plates with different material parameters or sizes are analyzed, and some valuable conclusions are pointed out.
通过分析不同材料参数或不同平板尺寸对材料涂覆导体平板后向散射的影响,得到一些有益的结论。
The influence of the temperature and material parameters of the composed sphere on the void formation and growth are considered and compared with that for static analysis.
考察了参数对孔穴生成与增长的影响,并与相应的静态结果进行了比较。
On the basis of analysis of the forming characteristics of rectangular cup, the influence of material parameters on formability under certain forming mode has been studied.
在对模拟成形件进行成形特征分析的基础上,研究了特定成形方式下材料参数对冲压成形性的影响规律。
The influence of the material parameters on the void formation and growth is considered by numerical computation and the results are compared with those for static analysis.
通过数值计算,分析了材料参数和球体的半径比对孔穴生成和增长的影响,并与相应的静态结果进行了比较。
The influence of the material parameters on the void formation and growth is considered by numerical computation and the results are compared with those for static analysis.
通过数值计算,分析了材料参数和球体的半径比对孔穴生成和增长的影响,并与相应的静态结果进行了比较。
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