The paper extends recent work of the authors to include transverse shear effects on rotation-free triangular element for plates (Oñate and Zárate in Int J Numer Methods Eng 83(2):196–227, 2010). Two new shell triangular elements are presented, the EBST+ and the EBST+1. Transverse shear deformation effects are important for thick shells, as well when the shell is laminated or formed by composite material. The ingredients for the element formulation are: a Hu-Washizu type mixed functional and linear interpolation for the displacement field. In both elements presented a finite volume approach is used for computing the bending moments and the curvatures over a patch of elements. The nodal translational degrees of freedo...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...
The paper describes a new shear flexible triangular element. The formulation is based on displacemen...
This paper extends the capabilities of previous BST and EBST rotation‐free thin shell elements to th...
The paper describes a methodology for extending rotation-free plate and beam elements in order to ac...
This paper presents the extension of a previously developed formulation for shell elements in order ...
An enhanced rotation-free three node triangular shell element (termed EBST) is presented. The elemen...
A new plate triangle based on Reissner-Mindlin plate theory is proposed. The element has a standard ...
The paper describes how finite element method and the finite volume method can be successfully combi...
The paper describes how the finite element method and the finite volume method can be successfully c...
CIMNE, Technical Report Nº PI-149, Barcelona, SpainThe paper describes how the finite element method...
An enhanced rotation-free three node triangular shell element (termed EBST) is presented. The elemen...
This paper extends a previous triangular prism solid element adequate to model shells under large st...
An approach for adding drilling rotations to the constant strain triangle, such that the added rotat...
Key words: shell analysis, rotation-free triangles, finite elements Abstract. The derivation of shel...
A 3-node co-rotational triangular elasto-plastic shell element is developed. The local coordinate sy...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...
The paper describes a new shear flexible triangular element. The formulation is based on displacemen...
This paper extends the capabilities of previous BST and EBST rotation‐free thin shell elements to th...
The paper describes a methodology for extending rotation-free plate and beam elements in order to ac...
This paper presents the extension of a previously developed formulation for shell elements in order ...
An enhanced rotation-free three node triangular shell element (termed EBST) is presented. The elemen...
A new plate triangle based on Reissner-Mindlin plate theory is proposed. The element has a standard ...
The paper describes how finite element method and the finite volume method can be successfully combi...
The paper describes how the finite element method and the finite volume method can be successfully c...
CIMNE, Technical Report Nº PI-149, Barcelona, SpainThe paper describes how the finite element method...
An enhanced rotation-free three node triangular shell element (termed EBST) is presented. The elemen...
This paper extends a previous triangular prism solid element adequate to model shells under large st...
An approach for adding drilling rotations to the constant strain triangle, such that the added rotat...
Key words: shell analysis, rotation-free triangles, finite elements Abstract. The derivation of shel...
A 3-node co-rotational triangular elasto-plastic shell element is developed. The local coordinate sy...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...
The paper describes a new shear flexible triangular element. The formulation is based on displacemen...
This paper extends the capabilities of previous BST and EBST rotation‐free thin shell elements to th...