Add to ORKGA flat shell finite element is obtained by superposing plate bending and membrane components. Normally, shell elements of this type possess five degrees of freedom (DOF), three displacement DOF, u, v and w, and two in-plane rotation DOF, qx and qy , at each node. A sixth degree of freedom, qz , is associated with the shell normal rotation, and is not usually required by the theory. In practice, however, computational and modeling problems can be caused by a failure to include this degree of freedom in finite element models.This paper presents the formulation and testing of a four node quadrilateral thin flat shell finite element, which has six DOF per node. The sixth DOF is obtained by combining by a membrane element with a normal rotation ...
In this paper a C° four node flat facetted shell element with drilling rotational degrees of freedom...
In this study two continuum shell finite elements are developed. The first one is based on the first...
The need for membrane elements with drilling degrees of freedom arises in many practical engineering...
In this paper, a new rectangular flat shell element denoted ‘ACM_RSBE5’ is presented. The new elemen...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.Th...
The Office of Naval Research Department of The Navy; Contract N 0014-67-A-0305-001
A C0 finite element formulation of flat faceted element based on a higher-order displacement model i...
This report describes a systems approach to the nonlinear finite element analysis of shell structure...
The paper describes how the finite element method and the finite volume method can be successfully c...
AbstractThe objective of this paper is to evaluate a number of shell elements. At the same time, a n...
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...
In this doctoral thesis, new three-node at shell finite elements for general 3D linear-elastic anal...
The Office of Naval Research Department Of The Navy Contract N 00014-67-A-0305-001
Shallow doubly curved translational shells are efficient and aesthetically attractive structures and...
In this paper a C° four node flat facetted shell element with drilling rotational degrees of freedom...
In this study two continuum shell finite elements are developed. The first one is based on the first...
The need for membrane elements with drilling degrees of freedom arises in many practical engineering...
In this paper, a new rectangular flat shell element denoted ‘ACM_RSBE5’ is presented. The new elemen...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.Th...
The Office of Naval Research Department of The Navy; Contract N 0014-67-A-0305-001
A C0 finite element formulation of flat faceted element based on a higher-order displacement model i...
This report describes a systems approach to the nonlinear finite element analysis of shell structure...
The paper describes how the finite element method and the finite volume method can be successfully c...
AbstractThe objective of this paper is to evaluate a number of shell elements. At the same time, a n...
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...
In this doctoral thesis, new three-node at shell finite elements for general 3D linear-elastic anal...
The Office of Naval Research Department Of The Navy Contract N 00014-67-A-0305-001
Shallow doubly curved translational shells are efficient and aesthetically attractive structures and...
In this paper a C° four node flat facetted shell element with drilling rotational degrees of freedom...
In this study two continuum shell finite elements are developed. The first one is based on the first...
The need for membrane elements with drilling degrees of freedom arises in many practical engineering...