The structure-liquid coupling vibration problem can be solved automatically by the auto-generating liquid finite element program.
编制了流体有限元自动生成程序,使得流固耦合问题从建立模型到分析能够利用计算机自动实现。
The coupling action between sloshing liquid and flexible structure is also analyzed associated with the hydroelasticity theory and corresponding hydroelastic equations are established.
运用水弹性力学理论论述了液体晃荡与弹性液舱耦合作用的分析方法,建立了相应的水弹性力学方程。
Through analysis of the coupling problem between structure and ideal liquid, some researches were done on the dynamic responses of solid liquid coupling system using FEM.
通过对结构与理想流体耦合问题的分析,利用有限元方法对流固耦合系统动力响应进行了研究。
The present method can be extended to the analysis of the dynamic behavior of liquid-structure coupling of cylindrical container in the case of three-dimensional liquid sloshing.
本方法可推广应用于分析圆柱等其它形状贮箱中液体的三维晃动情形下的液固耦合系统动力学特性。
The method of liquid-solid coupling was used to calculate the effect of explosive to structure, taking examples for steel plate, steel-aluminum plate, steel-rubber plate etc.
并以钢板、钢-铝、钢-橡胶等组合为例,使用流固耦合方法计算炸药对结构的作用。
A mixed FE-BE method is used to analyze fluid-structure coupling free vibrations of 3-d structures in an infinite liquid with constant depth.
应用有限元-边界元混合法分析了等深度的无限大片状域流场中三维结构的自由耦振问题。
A mixed FE-BE method is used to analyze fluid-structure coupling free vibrations of 3-d structures in an infinite liquid with constant depth.
应用有限元-边界元混合法分析了等深度的无限大片状域流场中三维结构的自由耦振问题。
应用推荐