This work presents a general formulation and implementation in solid-shell elements of the refined zigzag theory and the trigonometric shear deformation theory in an unified way. The model thus conceived is aimed for use in the analysis, design and verification of structures made of composite materials, in which shear strains have a significant prevalence. The refined zigzag theory can deal with composite laminates economically, adding only two nodal degrees of freedom, with very good accuracy. It assumes that the in-plane displacements have a piece-wise linear shape across the thickness depending on the shear stiffness of each composite layer. The trigonometric theory assumes a cosine variation of the transverse shear strain. A modificatio...
In structural analysis the three-dimensional standard 8-node brick element has become one of the mos...
A C0 continuous displacement based finite element formulation of a higher order theory for linear an...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...
This work presents a general formulation and implementation in solid-shell elements of the refined z...
This work shows a possible implementation of the refined zigzag theory in elements based on Simo’s s...
A new shear deformable finite element formulation has been developed for the linear static analysis ...
This article presents the formulation of an enriched macro finite element based on the trigonometric...
Another alternative to 3-D finite element model is the use of plate elements based on a single-layer...
A finite element formulation for the shear-deformable analysis of beams, plates and shells, based on...
A family of simple, displacement-based and shear-flexible triangular and quadrilateral flat plate/sh...
This thesis is concerned with static and dynamic analysis of linear and geometrically nonlinear lami...
A total Lagrangian finite element scheme for arbitrarily large displacements and rotations is applie...
A 48 d.o.f., four-noded quadrilateral laminated composite shell finite element is particularised to ...
Based on the first-order shear deformation theory, a 3-node co-rotational triangular finite element ...
We are presenting a simple low-order solid-shell element formulation––having only displacement degre...
In structural analysis the three-dimensional standard 8-node brick element has become one of the mos...
A C0 continuous displacement based finite element formulation of a higher order theory for linear an...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...
This work presents a general formulation and implementation in solid-shell elements of the refined z...
This work shows a possible implementation of the refined zigzag theory in elements based on Simo’s s...
A new shear deformable finite element formulation has been developed for the linear static analysis ...
This article presents the formulation of an enriched macro finite element based on the trigonometric...
Another alternative to 3-D finite element model is the use of plate elements based on a single-layer...
A finite element formulation for the shear-deformable analysis of beams, plates and shells, based on...
A family of simple, displacement-based and shear-flexible triangular and quadrilateral flat plate/sh...
This thesis is concerned with static and dynamic analysis of linear and geometrically nonlinear lami...
A total Lagrangian finite element scheme for arbitrarily large displacements and rotations is applie...
A 48 d.o.f., four-noded quadrilateral laminated composite shell finite element is particularised to ...
Based on the first-order shear deformation theory, a 3-node co-rotational triangular finite element ...
We are presenting a simple low-order solid-shell element formulation––having only displacement degre...
In structural analysis the three-dimensional standard 8-node brick element has become one of the mos...
A C0 continuous displacement based finite element formulation of a higher order theory for linear an...
Copyright © 2002 Elsevier Science Ltd. All rights reserved.A high precision triangular element devel...