Cut finite-element methods (CutFEMs) is the class of methods that allow boundaries/interfaces to cut through the elements, which avoids any meshing/remeshing problems. This is highly convenient from practical point of view, especially when non-stationary interfaces are considered, e.g. phase boundaries in solids, as the interfaces can move independently of the mesh. There are many research directions related to CutFEM, one of which focuses on the equations of solid mechanics. Initially, the developments focused on linear elasticity and, in the previous publication by the authors, the method has been extended to large deformations and arbitrary constitutive relations, while the focus has been on phase boundaries in solids and on localised ch...
We present an immersed finite element technique for boundary-value and interface problems from nonli...
Recent developments concerning the numerical simulation of solid objects and fluid flows in the fiel...
In this paper, a generalized–FEM technique is presented in modeling of arbitrary interfaces in large...
Cut finite-element methods (CutFEMs) belong to the class of methods that allow boundaries/interfaces...
Many advanced engineering problems require the numerical solution of multidomain, multidimension, mu...
We discuss recent advances on robust unfitted finite element methods on cut meshes. These methods ar...
We discuss recent advances on robust unfitted finite element methods on cut meshes. These methods ar...
Interface problems modeled by Partial Differential Equations (PDEs) appear in a wide range of fields...
We develop a robust cut finite element method for a model of diffusion in fractured media consisting...
In this paper, we propose a novel unfitted finite element method for the simulation of multiple body...
In this paper we will discuss different coupling methods {suitable for use in} the framework of the ...
This paper presents a robust digital pipeline from CT images to the simulation of contact between mu...
International audienceThis paper presents a novel CutFEM-LaTIn algorithm to solve multiple unilatera...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.The computational modeling of...
This dissertation deals with the applications of finite element method for the analysis of interface...
We present an immersed finite element technique for boundary-value and interface problems from nonli...
Recent developments concerning the numerical simulation of solid objects and fluid flows in the fiel...
In this paper, a generalized–FEM technique is presented in modeling of arbitrary interfaces in large...
Cut finite-element methods (CutFEMs) belong to the class of methods that allow boundaries/interfaces...
Many advanced engineering problems require the numerical solution of multidomain, multidimension, mu...
We discuss recent advances on robust unfitted finite element methods on cut meshes. These methods ar...
We discuss recent advances on robust unfitted finite element methods on cut meshes. These methods ar...
Interface problems modeled by Partial Differential Equations (PDEs) appear in a wide range of fields...
We develop a robust cut finite element method for a model of diffusion in fractured media consisting...
In this paper, we propose a novel unfitted finite element method for the simulation of multiple body...
In this paper we will discuss different coupling methods {suitable for use in} the framework of the ...
This paper presents a robust digital pipeline from CT images to the simulation of contact between mu...
International audienceThis paper presents a novel CutFEM-LaTIn algorithm to solve multiple unilatera...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.The computational modeling of...
This dissertation deals with the applications of finite element method for the analysis of interface...
We present an immersed finite element technique for boundary-value and interface problems from nonli...
Recent developments concerning the numerical simulation of solid objects and fluid flows in the fiel...
In this paper, a generalized–FEM technique is presented in modeling of arbitrary interfaces in large...