A flat triangular element for the nonlinear analysis of thin shells is presented. The formulation relies on (i) a polar decomposition based corotational framework and (ii) a core-element kinematic description adopting the multiplicative superposition of membrane and bending actions. The resulting element is a refined yet simple three-node displacement-based triangle accounting for thickness extensibility and initial shell curvature, and equipped with a fully consistent tangent stiffness. Numerical tests involving shell structures made of rubber-like materials or fibred biological tissues show the effectiveness of the proposed element and its suitability to problems characterized by large displacements, large rotations, large membrane strain...
The choice of finite element to use in order to predict nonlinear static or dynamic response of comp...
A nine-node corotational curved quadrilateral shell element with novel treatment for rotation at int...
A simple finite element triangle for thin shell analysis is presented. It has only nine translationa...
A flat triangular element for the nonlinear analysis of thin shells is presented. The formulation re...
A triangular flat finite element for the analysis of thin shells which undergo large displacements i...
In this paper a triangular prism solid element for the analysis of thin/thick shells undergoing larg...
Based on the refined non-conforming element method, simple flat triangular elements with standard no...
The solid-shells are an attractive kind of element for the simulation of f orming processes, due to ...
The formulation of the linear stiffness matrix for a doubly-curved triangular thin shell element, us...
This work presents a fully non-linear finite element formulation for shell analysis comprising linea...
The research work presented here deals with the problems of geometrically nonlinear analysis of thin...
This paper extends a previous triangular prism solid element adequate to model shells under large st...
A polar decomposition based corotational formulation for deriving geometrically nonlinear triangular...
In this paper an assumed strain approach is presented in order to improve the membrane behaviour of ...
An approach for adding drilling rotations to the constant strain triangle, such that the added rotat...
The choice of finite element to use in order to predict nonlinear static or dynamic response of comp...
A nine-node corotational curved quadrilateral shell element with novel treatment for rotation at int...
A simple finite element triangle for thin shell analysis is presented. It has only nine translationa...
A flat triangular element for the nonlinear analysis of thin shells is presented. The formulation re...
A triangular flat finite element for the analysis of thin shells which undergo large displacements i...
In this paper a triangular prism solid element for the analysis of thin/thick shells undergoing larg...
Based on the refined non-conforming element method, simple flat triangular elements with standard no...
The solid-shells are an attractive kind of element for the simulation of f orming processes, due to ...
The formulation of the linear stiffness matrix for a doubly-curved triangular thin shell element, us...
This work presents a fully non-linear finite element formulation for shell analysis comprising linea...
The research work presented here deals with the problems of geometrically nonlinear analysis of thin...
This paper extends a previous triangular prism solid element adequate to model shells under large st...
A polar decomposition based corotational formulation for deriving geometrically nonlinear triangular...
In this paper an assumed strain approach is presented in order to improve the membrane behaviour of ...
An approach for adding drilling rotations to the constant strain triangle, such that the added rotat...
The choice of finite element to use in order to predict nonlinear static or dynamic response of comp...
A nine-node corotational curved quadrilateral shell element with novel treatment for rotation at int...
A simple finite element triangle for thin shell analysis is presented. It has only nine translationa...