Copyright © 2005 ASCEThe bending response of sandwich plates with stiff laminated face sheets is studied by a six-noded triangular element having seven degrees of freedom at each node. The element formulation is based on a refined higher-order plate theory having all the features for an accurate modeling of sandwich plates with affordable unknowns. The refined plate theory is quite attractive but suffers from a problem concerned with an interelement continuity requirement when it is used in finite element analysis. The problem has been dealt satisfactorily in this new element, which is applied to the analysis of sandwich plates of different kinds. © ASCE.A. Chakrabarti and A. H. Sheik
Copyright © 2005 Elsevier Ltd All rights reserved.For the first time, the dynamic instability of lam...
International audienceIn this paper, the behavior of laminated composites is investigated using seve...
Sandwich construction may be defined as a three-layer type of construction where a relatively weak, ...
Copyright © 2003 SAGE Publications A four noded plate element based on a refined higher order shear ...
©2004 American Society of Civil EngineersAn efficient six-noded triangular element based on refined ...
An efficient triangular element based on an inter-laminar shear stress continuous plate theory is de...
ABSTRACT: A finite element model based on an improved higher order zigzag plate theory developed by ...
Also published in: Journal of Sandwich Structures & Materials [serial online], 2009; June 5:www1-20A...
ABSTRACT: A four noded plate element based on a refined higher order shear deformation theory is dev...
The original publication can be found at www.springerlink.comThe static response of laminated sandwi...
grantor: University of TorontoA finite element model for the analysis of sandwich plates w...
In this study, an improved higher order zigzag plate theory for bending of sandwich panels is presen...
Buckling of laminated sandwich plates is studied using an efficient finite element plate model recen...
The bending analysis of sandwich plates consisting of very stiff face sheets and a comparatively fle...
A new C0 finite element (FE) model has been proposed in this paper for the static analysis of lamina...
Copyright © 2005 Elsevier Ltd All rights reserved.For the first time, the dynamic instability of lam...
International audienceIn this paper, the behavior of laminated composites is investigated using seve...
Sandwich construction may be defined as a three-layer type of construction where a relatively weak, ...
Copyright © 2003 SAGE Publications A four noded plate element based on a refined higher order shear ...
©2004 American Society of Civil EngineersAn efficient six-noded triangular element based on refined ...
An efficient triangular element based on an inter-laminar shear stress continuous plate theory is de...
ABSTRACT: A finite element model based on an improved higher order zigzag plate theory developed by ...
Also published in: Journal of Sandwich Structures & Materials [serial online], 2009; June 5:www1-20A...
ABSTRACT: A four noded plate element based on a refined higher order shear deformation theory is dev...
The original publication can be found at www.springerlink.comThe static response of laminated sandwi...
grantor: University of TorontoA finite element model for the analysis of sandwich plates w...
In this study, an improved higher order zigzag plate theory for bending of sandwich panels is presen...
Buckling of laminated sandwich plates is studied using an efficient finite element plate model recen...
The bending analysis of sandwich plates consisting of very stiff face sheets and a comparatively fle...
A new C0 finite element (FE) model has been proposed in this paper for the static analysis of lamina...
Copyright © 2005 Elsevier Ltd All rights reserved.For the first time, the dynamic instability of lam...
International audienceIn this paper, the behavior of laminated composites is investigated using seve...
Sandwich construction may be defined as a three-layer type of construction where a relatively weak, ...