We present an Isogeometric Analysis study of for the strain gradient fracture problem. In particular we consider an anti-plane formulation (Mode III). The numerical approximation we resort to a standard Galerkin isogeometric formulation and the results are in agreement with the theoretically expected behavior
This report features the isogeometric finite element method applied to the elastodynamic problem in ...
We begin the mathematical study of Isogeometric Analysis based on NURBS (non-uniform rational B-spli...
Abstract The transfer of geometrical data from CAD (Computer Aided De-sign) to FEA (Finite-Element A...
A variational formulation within an H^2 Sobolev space setting is formulated for fourth-order plane s...
Isogeometric analysis is a versatile tool for failure analysis. On the one hand, the excellent contr...
In the present research, implementations of different computational geometry technologies in isogeom...
In the present contribution the concept of isogeometric analysis is extended towards the numerical s...
Continuum damage formulations are commonly used for the simulation of diffuse fracture processes. Im...
Isogeometric analysis (IGA) represents a recently developed technology in computational mechanics th...
The objective of this study is to present an extended isogeometric formulation for cohesive fracture...
International audienceThe extended finite element method (X-FEM) has proven to be an accurate, robus...
Thesis deals with solving the problems of continuum mechanics by method of Isogeometric analysis. Th...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
The field of fracture mechanics focuses on investigating the crack initiation and propagation in mat...
This report features the isogeometric finite element method applied to the elastodynamic problem in ...
We begin the mathematical study of Isogeometric Analysis based on NURBS (non-uniform rational B-spli...
Abstract The transfer of geometrical data from CAD (Computer Aided De-sign) to FEA (Finite-Element A...
A variational formulation within an H^2 Sobolev space setting is formulated for fourth-order plane s...
Isogeometric analysis is a versatile tool for failure analysis. On the one hand, the excellent contr...
In the present research, implementations of different computational geometry technologies in isogeom...
In the present contribution the concept of isogeometric analysis is extended towards the numerical s...
Continuum damage formulations are commonly used for the simulation of diffuse fracture processes. Im...
Isogeometric analysis (IGA) represents a recently developed technology in computational mechanics th...
The objective of this study is to present an extended isogeometric formulation for cohesive fracture...
International audienceThe extended finite element method (X-FEM) has proven to be an accurate, robus...
Thesis deals with solving the problems of continuum mechanics by method of Isogeometric analysis. Th...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
The field of fracture mechanics focuses on investigating the crack initiation and propagation in mat...
This report features the isogeometric finite element method applied to the elastodynamic problem in ...
We begin the mathematical study of Isogeometric Analysis based on NURBS (non-uniform rational B-spli...
Abstract The transfer of geometrical data from CAD (Computer Aided De-sign) to FEA (Finite-Element A...