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作 者:吴国荣[1] 钟伟芳[1] 吴永东[1] 梁以德[2]
机构地区:[1]华中科技大学力学系,武汉430074 [2]香港城市大学建筑系
出 处:《力学与实践》2004年第5期52-55,共4页Mechanics in Engineering
摘 要:应用二级分形有限元方法计算了外域声场.用一人工边界把外域声场分为两部分,人工边界以内使用常规有限元方法,人工边界以外的无限大区域使用分形有限元方法.使用分形有限元方法的优点是:一方面形成几何自相似网格使得相邻层之间的单元刚度矩阵和质量矩阵具有非常简单的关系;另一方面引用自动满足无限远辐射条件的全域插值函数把节点自由度变换为一组广义坐标,因而计算量可以大大减少.数值算例表明:该方法对于计算无限大外域声场是有效的.The fractal finite element method is extended to solve exterior acoustic problems. An artificial boundary is introduced to divide the exterior domain into two parts. The conventional finite element method is adopted within the artificial boundary, and the fractal finite element method is employed in the outer region beyond the artificial boundary. Because of the facts that the relationships of element matrices between the adjacent fractal layers are very simple and the node degrees of freedom are transformed into a set of general coordinates by using the global interpolation functions, which satisfy automatically Sommerfeld's radiation conditions, the computer time can be reduced greatly by the fractal finite element method. The numerical results show that this method is effective in solving exterior acoustic problems.
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