A consistent linearization is provided for the element-dependent corotational formulation, providing the proper first and second variation of the strain energy. As a result, the warping problem that has plagued flat elements has been overcome, with beneficial effects carried over to linear solutions. True Newton quadratic convergence has been restored to the Structural Analysis of General Shells (STAGS) code for conservative loading using the full corotational implementation. Some implications for general finite element analysis are discussed, including what effect the automatic frame invariance provided by this work might have on the development of new, improved elements
AbstractThe paper deals with geometrically nonlinear finite element analysis of folded-plate and she...
For the analysis of arbitrary, by Finite Elements discretized shell structures, an efficient numeric...
The paper deals with geometrically nonlinear finite element analysis of folded-plate and shell struc...
This article presents a unified theoretical framework for the corotational (CR) formulation of finit...
The corotational method for frame-invariant elements is generalized to obtain a consistent large-str...
Finite Element Method (FEM) has deservedly gained the reputation of the most powerful numerical meth...
Finite element formulations for large strain, large displacement problems are formulated using a kin...
In some recent works, it has been shown that the Implicit Corotational Method (or simply ICM) is a p...
International audienceA smoothed finite element method formulation for the resultant eight-node soli...
Analysis of elastic-plastic shells of revolution under axisymmetric loading by finite element metho
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1984.MICROFI...
The development of two new shell finite elements for applications to large deflection problems is co...
Very good results in infinitesimal and finite strain analysis of shells are achieved by combining ei...
Computer programs for elastic analysis of shells of revolution under arbitrary loading with asymmetr...
The choice of finite element to use in order to predict nonlinear static or dynamic response of comp...
AbstractThe paper deals with geometrically nonlinear finite element analysis of folded-plate and she...
For the analysis of arbitrary, by Finite Elements discretized shell structures, an efficient numeric...
The paper deals with geometrically nonlinear finite element analysis of folded-plate and shell struc...
This article presents a unified theoretical framework for the corotational (CR) formulation of finit...
The corotational method for frame-invariant elements is generalized to obtain a consistent large-str...
Finite Element Method (FEM) has deservedly gained the reputation of the most powerful numerical meth...
Finite element formulations for large strain, large displacement problems are formulated using a kin...
In some recent works, it has been shown that the Implicit Corotational Method (or simply ICM) is a p...
International audienceA smoothed finite element method formulation for the resultant eight-node soli...
Analysis of elastic-plastic shells of revolution under axisymmetric loading by finite element metho
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1984.MICROFI...
The development of two new shell finite elements for applications to large deflection problems is co...
Very good results in infinitesimal and finite strain analysis of shells are achieved by combining ei...
Computer programs for elastic analysis of shells of revolution under arbitrary loading with asymmetr...
The choice of finite element to use in order to predict nonlinear static or dynamic response of comp...
AbstractThe paper deals with geometrically nonlinear finite element analysis of folded-plate and she...
For the analysis of arbitrary, by Finite Elements discretized shell structures, an efficient numeric...
The paper deals with geometrically nonlinear finite element analysis of folded-plate and shell struc...