Add to ORKGIn this paper, we present finite element formulations for general three-dimensional convex polyhedra for use in a common finite element framework that are well suited, e.g., for modeling complex granular materials and for mesh refinements. Based on an universally applicable interpolant for any convex polyhedron, different interpolation schemes are investigated in the context of nonlinear elastostatics. The modeling benefits and the numerical performance regarding the mechanical response and the computational cost are analyzed by several examples
Three different displacement based finite element formulations over arbitrary polygons are studied i...
As an important method for solving boundary value problems of differential equations, the finite ele...
A novel technique to formulate arbritrary faceted polyhedral elements in three-dimensions is present...
We present a method for animating deformable objects using a novel finite element discretization on ...
Für die Approximation der Lösung partieller Differentialgleichung hat sich in den letzten Jahrzehnte...
In this paper, a displacement based finite element framework for general three-dimensional convex po...
Hybrid finite element formulations in combination with Voronoi-cell-based discretisation methods can...
In this study, we investigate the dynamic performance of the three-dimensional solid structures by u...
Due to its unique and intriguing properties, polygonal and polyhedral discretization is an emerging ...
In this paper, we investigate the use of a consecutive-interpolation for polyhedral finite element m...
Wicke M, Botsch M, Gross M. A Finite Element Method on Convex Polyhedra. Computer Graphics Forum (Eu...
Nonlinear elastic materials are of great engineering interest, but challenging to model with standar...
In this paper, we present novel techniques of using quadratic Bézier triangular and tetrahedral elem...
The present work deals with the formulation of a virtual element method for two dimensional structur...
In this work we present polygonal finite element method (Poly-FEM) for the analysis of two dimension...
Three different displacement based finite element formulations over arbitrary polygons are studied i...
As an important method for solving boundary value problems of differential equations, the finite ele...
A novel technique to formulate arbritrary faceted polyhedral elements in three-dimensions is present...
We present a method for animating deformable objects using a novel finite element discretization on ...
Für die Approximation der Lösung partieller Differentialgleichung hat sich in den letzten Jahrzehnte...
In this paper, a displacement based finite element framework for general three-dimensional convex po...
Hybrid finite element formulations in combination with Voronoi-cell-based discretisation methods can...
In this study, we investigate the dynamic performance of the three-dimensional solid structures by u...
Due to its unique and intriguing properties, polygonal and polyhedral discretization is an emerging ...
In this paper, we investigate the use of a consecutive-interpolation for polyhedral finite element m...
Wicke M, Botsch M, Gross M. A Finite Element Method on Convex Polyhedra. Computer Graphics Forum (Eu...
Nonlinear elastic materials are of great engineering interest, but challenging to model with standar...
In this paper, we present novel techniques of using quadratic Bézier triangular and tetrahedral elem...
The present work deals with the formulation of a virtual element method for two dimensional structur...
In this work we present polygonal finite element method (Poly-FEM) for the analysis of two dimension...
Three different displacement based finite element formulations over arbitrary polygons are studied i...
As an important method for solving boundary value problems of differential equations, the finite ele...
A novel technique to formulate arbritrary faceted polyhedral elements in three-dimensions is present...