We present an immersed finite element technique for boundary-value and interface problems from nonlinear solid mechanics. Its key features are the implicit representation of domain boundaries and interfaces, the use of Nitsche’s method for the incorporation of boundary conditions, accurate numerical integration based on marching tetrahedrons and cut-element stabilisation by means of extrapolation. For discretisation structured and unstructured background meshes with Lagrange basis functions are considered. We show numerically and analytically that the introduced cut-element stabilisation technique provides an effective bound on the size of the Nitsche parameters and, in turn, leads to well-conditioned system matrices. In addition, we introd...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
We consider a modification of the immersed boundary method which makes use of a finite element spati...
In this paper, we present some novel results and ideas for robust and accurate implicit representati...
We present an immersed finite element technique for boundary-value and interface problems from nonli...
This paper proposes a new immersed boundary (IB) method for solving fluid flow problems in the prese...
Generating matching meshes for finite element analysis is not always a convenient choice, for instan...
In addition to an overview of the immersed boundary/continuum methods and their finite ele-ment form...
The immersed ¯nite element method based on a uniform Cartesian mesh has been developed for elasticit...
<p>Engineering mechanics problems involving interfaces, whether physical or introduced by numerical ...
Applied to solid mechanics problems with geometric nonlinearity, current finite element and boundary...
We propose a new embedded/immersed framework for computational solid mechanics, aimed at vastly spee...
Enforcing essential boundary conditions plays a central role in immersed boundary methods. Nitsche's...
International audienceA paradigm is developed for generating structured finite element models from s...
[EN] This paper proposes a novel Immersed Boundary Method where the embedded domain is exactly descr...
We propose a new scheme for elasticity problems having discontinuity in the coefficients. In the pre...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
We consider a modification of the immersed boundary method which makes use of a finite element spati...
In this paper, we present some novel results and ideas for robust and accurate implicit representati...
We present an immersed finite element technique for boundary-value and interface problems from nonli...
This paper proposes a new immersed boundary (IB) method for solving fluid flow problems in the prese...
Generating matching meshes for finite element analysis is not always a convenient choice, for instan...
In addition to an overview of the immersed boundary/continuum methods and their finite ele-ment form...
The immersed ¯nite element method based on a uniform Cartesian mesh has been developed for elasticit...
<p>Engineering mechanics problems involving interfaces, whether physical or introduced by numerical ...
Applied to solid mechanics problems with geometric nonlinearity, current finite element and boundary...
We propose a new embedded/immersed framework for computational solid mechanics, aimed at vastly spee...
Enforcing essential boundary conditions plays a central role in immersed boundary methods. Nitsche's...
International audienceA paradigm is developed for generating structured finite element models from s...
[EN] This paper proposes a novel Immersed Boundary Method where the embedded domain is exactly descr...
We propose a new scheme for elasticity problems having discontinuity in the coefficients. In the pre...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
We consider a modification of the immersed boundary method which makes use of a finite element spati...
In this paper, we present some novel results and ideas for robust and accurate implicit representati...