A finite element formulation and analytical and semianalytical methods for calculating sensitivity derivatives for static analysis and design problems of Mindlin plate structures are presented. The finite element is the hybrid-stress version of the displacement model element MIN3 by Tessler and Hughes [1]. It is triangular and has a simple nodal configuration with three corner nodes and C-0 type nodal variables. The use of independent field assumptions for displacements and stresses removes the necessity for the inplane shear correction factor of MIN3. With its three-noded configuration, the element can effectively be used as the bending part of facet shell elements, and due to its simplicity and accuracy, it can be employed in large scale ...
Based on the Mindlin/Reissner plate theory, two refined triangular thin/thick plate elements, the co...
This paper describes a number of triangular and quadrilateral plate and Shell elements derived via R...
The eight-node isoparametric Mindlin plate bending element based on the serendipity shape functions ...
A hybrid-stress Mindlin plate finite element and its sensitivity derivatives are presented. The elem...
A sinus shear deformable theory is used to develop discrete model for the sensitivity analysis and o...
The edge-based strain smoothing technique is combined with the three-node Mindlin plate element (MIN...
This paper presents a Mindlin plate finite element for the analysis of plastic limit loads with von ...
The 2-D approximation functions based on a general exact 3-D plate solution are used to derive locki...
The cell-based strain smoothing technique is combined with the well-known three-node Mindlin plate e...
A new plate triangle based on Reissner-Mindlin plate theory is proposed. The element has a standard ...
In the present paper a simple mixed-hybrid element for the linear analysis of Reissner-Mindlin plate...
An assumed-strain finite element technique is presented for shear-deformable (Reissner-Mindlin) plat...
An analytical method is developed for the bending response of annular sector Mindlin plates with two...
This paper describes the formulation of a four node quadrilateral finite element for the use in the ...
grantor: University of TorontoAn approach for the determination of solution sensitivity to...
Based on the Mindlin/Reissner plate theory, two refined triangular thin/thick plate elements, the co...
This paper describes a number of triangular and quadrilateral plate and Shell elements derived via R...
The eight-node isoparametric Mindlin plate bending element based on the serendipity shape functions ...
A hybrid-stress Mindlin plate finite element and its sensitivity derivatives are presented. The elem...
A sinus shear deformable theory is used to develop discrete model for the sensitivity analysis and o...
The edge-based strain smoothing technique is combined with the three-node Mindlin plate element (MIN...
This paper presents a Mindlin plate finite element for the analysis of plastic limit loads with von ...
The 2-D approximation functions based on a general exact 3-D plate solution are used to derive locki...
The cell-based strain smoothing technique is combined with the well-known three-node Mindlin plate e...
A new plate triangle based on Reissner-Mindlin plate theory is proposed. The element has a standard ...
In the present paper a simple mixed-hybrid element for the linear analysis of Reissner-Mindlin plate...
An assumed-strain finite element technique is presented for shear-deformable (Reissner-Mindlin) plat...
An analytical method is developed for the bending response of annular sector Mindlin plates with two...
This paper describes the formulation of a four node quadrilateral finite element for the use in the ...
grantor: University of TorontoAn approach for the determination of solution sensitivity to...
Based on the Mindlin/Reissner plate theory, two refined triangular thin/thick plate elements, the co...
This paper describes a number of triangular and quadrilateral plate and Shell elements derived via R...
The eight-node isoparametric Mindlin plate bending element based on the serendipity shape functions ...