AbstractAn interpolation function for triangular mid-edge finite elements is developed using an algebraic interpolation approach. A convenient method for deriving shape functions of serendipity type directly and explicitly arises aslo from the interpolation function proposed above
Classical ways to describe shape functions for finite element methods make use of interpolating or ...
summary:We propose a simple method to obtain sharp upper bounds for the interpolation error constant...
This paper is an overview of recent developments in the construction of finite element interpolants,...
AbstractAn interpolation function for triangular mid-edge finite elements is developed using an alge...
AbstractIn the analysis of a finite element method (FEM) we can describe the shape of a given elemen...
A Finite Element technique to interpolate general data (function values and its derivatives) has bee...
summary:The reduction and the concentration of the parameters determining an interpolation polynomia...
The a i m of thi s paper is the description and the representation of shape functions...
AbstractHierarchies of C0 and C1 interpolations over triangles are presented. By means of a new inte...
Straight beam finite elements with greater than two nodes are used for edge stiening in plane stress...
AbstractThe main aim of this paper is to derive an interpolation theorem (Theorem 1) which implies b...
International audienceThe comparison of finite elements (FE) and experimental data fields have becom...
This screen demo introduces an educational function of VisualFEA, related to intra-element interpola...
This paper presents a methodology for generating high-order shape functions for the complete family ...
Classical ways to describe shape functions for finite element methods make use of interpolating or ...
Classical ways to describe shape functions for finite element methods make use of interpolating or ...
summary:We propose a simple method to obtain sharp upper bounds for the interpolation error constant...
This paper is an overview of recent developments in the construction of finite element interpolants,...
AbstractAn interpolation function for triangular mid-edge finite elements is developed using an alge...
AbstractIn the analysis of a finite element method (FEM) we can describe the shape of a given elemen...
A Finite Element technique to interpolate general data (function values and its derivatives) has bee...
summary:The reduction and the concentration of the parameters determining an interpolation polynomia...
The a i m of thi s paper is the description and the representation of shape functions...
AbstractHierarchies of C0 and C1 interpolations over triangles are presented. By means of a new inte...
Straight beam finite elements with greater than two nodes are used for edge stiening in plane stress...
AbstractThe main aim of this paper is to derive an interpolation theorem (Theorem 1) which implies b...
International audienceThe comparison of finite elements (FE) and experimental data fields have becom...
This screen demo introduces an educational function of VisualFEA, related to intra-element interpola...
This paper presents a methodology for generating high-order shape functions for the complete family ...
Classical ways to describe shape functions for finite element methods make use of interpolating or ...
Classical ways to describe shape functions for finite element methods make use of interpolating or ...
summary:We propose a simple method to obtain sharp upper bounds for the interpolation error constant...
This paper is an overview of recent developments in the construction of finite element interpolants,...
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