Smoothed Galerkin methods using cell-wise strain smoothing technique

A smoothed Galerkin method (SGM) using cell-wise strain smoothing operation is formulated in this paper. In present method, the field nodes can be divided into two types: boundary field nodes and interior field nodes. The background cells are divided into SC smoothing cells, and the strains in each smoothing cell are obtained using a gradient smoothing technique which can avoid evaluating derivatives of shape functions at integration point. The field variables of boundary points are approximated using linear interpolation of neighbour boundary field nodes, and the shape functions possess the Kronecker Delta property and facilitate the impositions of essential boundary conditions. The field variables of interior points are approximated using moving least-squares approximation using the support field nodes around them. A number of numerical examples are studied and confirm the significant features of the present methods: (1) can pass the standard patch test; (2) can easily impose essential boundary conditions as those in finite element method; (3) can avoid evaluating derivatives of shape functions; (4) no numerical parameter is required.