基于杂交基本解的正交各向异性材料热传导问题有限元法

采用基于杂交基本解的有限元法（HFS-FEM）对二维正交各向异性材料进行热传导分析. 单元域内和单元边界上的温度分布由两个温度场独立描述. 采用基本解的线性组合来近似单元内部温度场，采用标准一维线单元形函数来定义网线温度场. 利用修正变分泛函和散度定理导得相应的有限元列式，通过2个算例与ABAQUS结果对比，验证了该方法具有有效性. 数值结果表明，该方法在单元形状极度扭曲情形下仍能保持良好的精度，这是区别于传统有限元法的显著特点.

Hybrid Fundamental-Solution-Based FEM for Heat Conduction Problems in Orthotropic Materials

A heat conduction analysis of two-dimensional orthotropic materials was carried out by the hybrid fundamental-solution-based finite element method (HFS-FEM). Temperature distributions within the element domain and on the element boundary were independently described by two temperature fields. A linear combination of fundamental solutions was utilized to approximate the intra-element temperature field while standard one-dimensional shape functions were employed to define the frame temperature field. By virtue of the modified variational functional and divergence theorem, the resultant finite element formulation was derived. The effectiveness of the proposed method was verified by comparing two numerical examples with ABAQUS result. The numerical results demonstrate that the proposed method can still keep excellent accuracy even when the element shape degenerates to a situation of extreme distortion. This is one of marked features which differs from conventional finite element methods.