Formulation and numerical evaluation of a novel four-node quadrilateral element with continuous nodal stress(Q4-CNS)are presented.Q4-CNS can be regarded as an improved hybrid FE-meshless four-node quadrilateral elem...Formulation and numerical evaluation of a novel four-node quadrilateral element with continuous nodal stress(Q4-CNS)are presented.Q4-CNS can be regarded as an improved hybrid FE-meshless four-node quadrilateral element(FE-LSPIM QUAD4), which is a hybrid FE-meshless method.Derivatives of Q4-CNS are continuous at nodes, so the continuous nodal stress can be obtained without any smoothing operation.It is found that,compared with the standard four-node quadrilateral element(QUAD4),Q4- CNS can achieve significantly better accuracy and higher convergence rate.It is also found that Q4-CNS exhibits high tolerance to mesh distortion.Moreover,since derivatives of Q4-CNS shape functions are continuous at nodes,Q4-CNS is potentially useful for the problem of bending plate and shell models.展开更多
文摘Formulation and numerical evaluation of a novel four-node quadrilateral element with continuous nodal stress(Q4-CNS)are presented.Q4-CNS can be regarded as an improved hybrid FE-meshless four-node quadrilateral element(FE-LSPIM QUAD4), which is a hybrid FE-meshless method.Derivatives of Q4-CNS are continuous at nodes, so the continuous nodal stress can be obtained without any smoothing operation.It is found that,compared with the standard four-node quadrilateral element(QUAD4),Q4- CNS can achieve significantly better accuracy and higher convergence rate.It is also found that Q4-CNS exhibits high tolerance to mesh distortion.Moreover,since derivatives of Q4-CNS shape functions are continuous at nodes,Q4-CNS is potentially useful for the problem of bending plate and shell models.
