With the theme of fracture of finite-strain plates and shells based on a phase-field model of crack regularization, we introduce a new staggered algorithm for elastic and elasto-plastic materials. To account for correct fracture behavior in bending, two independent phase-fields are used, corresponding to the lower and upper faces of the shell. This is shown to provide a realistic behavior in bending-dominated problems, here illustrated in classical beam and plate problems. Finite strain behavior for both elastic and elasto-plastic constitutive laws is made compatible with the phase-field model by use of a consistent updated-Lagrangian algorithm. To guarantee sufficient resolution in the definition of the crack paths, a local remeshing algor...
The finite element approach is applied to predict crack patterns in a single or composite material u...
This paper presents a mixed Graph-FEM (Finite Element Method) approach for the phase field modeling ...
The Material Point Method for the analysis of deformable bodies is revisited and originally upgraded...
Fracture is one of the most commonly encountered failure modes of engineering materials and structur...
In this paper, a computational framework for simulating ductile fracture in multipatch shell structu...
The irreversibility constraint, the non-convexity of governing energy functional and the intrinsical...
The prediction of fracture in thin-walled structures is decisive for a wide range of applications. M...
We present an approach for phase-field modeling of fracture in thin structures like plates and shell...
Fracture of technological thin-walled components can notably limit the performance of their corresp...
Phase-field models are a leading approach for realistic fracture problems. They treat the crack as a...
Phase field models for fracture employ a continuous field variable to indicate cracks. The width of ...
The formulation of a phase-field continuum theory for brittle fracture in elastic-plastic solids and...
International audienceThe phase field method has been widely adopted in brittle fracture analysis fo...
We present a computational framework for applying the phase-field approach to brittle fracture effic...
We propose a simple and efficient algorithm for FEM-based computational fracture of plates and shell...
The finite element approach is applied to predict crack patterns in a single or composite material u...
This paper presents a mixed Graph-FEM (Finite Element Method) approach for the phase field modeling ...
The Material Point Method for the analysis of deformable bodies is revisited and originally upgraded...
Fracture is one of the most commonly encountered failure modes of engineering materials and structur...
In this paper, a computational framework for simulating ductile fracture in multipatch shell structu...
The irreversibility constraint, the non-convexity of governing energy functional and the intrinsical...
The prediction of fracture in thin-walled structures is decisive for a wide range of applications. M...
We present an approach for phase-field modeling of fracture in thin structures like plates and shell...
Fracture of technological thin-walled components can notably limit the performance of their corresp...
Phase-field models are a leading approach for realistic fracture problems. They treat the crack as a...
Phase field models for fracture employ a continuous field variable to indicate cracks. The width of ...
The formulation of a phase-field continuum theory for brittle fracture in elastic-plastic solids and...
International audienceThe phase field method has been widely adopted in brittle fracture analysis fo...
We present a computational framework for applying the phase-field approach to brittle fracture effic...
We propose a simple and efficient algorithm for FEM-based computational fracture of plates and shell...
The finite element approach is applied to predict crack patterns in a single or composite material u...
This paper presents a mixed Graph-FEM (Finite Element Method) approach for the phase field modeling ...
The Material Point Method for the analysis of deformable bodies is revisited and originally upgraded...