Proper material features and entity unit type were used for intellectual finite element mesh division.
采用合适的材料性质和实体单元类型对模型进行智能有限元网格划分。
The method can be implemented with great efficiency in numerically simulation for the reason of mesh division can be made in scattering region instead of whole computational domain.
在数值计算中,该方程方法只需将散射体进行剖分,而不必将剖分推至整个计算域内进行,计算效率较高。
Firstly, introduce mesh generation technology of the finite element analysis software-ANSYS and apply it to grid division of inner domain of the cylinder model and ship model.
首先,介绍了通用有限元分析软件ANSYS的网格生成技术并将其应用在圆柱模型和船体模型的内域网格的划分中。
The simulation of geometric boundary condition and the division of computation mesh also affect the computation result of the slab stress to some extent.
对几何边界条件的处理、单元网格的划分也会对面板的计算应力产生一定的影响。
The relation between computation accuracy and division mesh is investigated numerically.
具体数值研究了波导高次模求解精度和剖分疏密的关系。
Experiments show that the new method can improve the efficiency of computing triangular mesh intersections based on space division.
实验的结果表明,改进的算法提高了采用空间分解进行三角网格求交的计算效率。
Experiments show that the new method can improve the efficiency of computing triangular mesh intersections based on space division.
实验的结果表明,改进的算法提高了采用空间分解进行三角网格求交的计算效率。
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