We propose a simple and efficient algorithm for FEM-based computational fracture of plates and shells with both brittle and ductile materials based on edge rotation and load control. Rotation axes are the crack front nodes and each crack front edge in surface discretizations affects the position of only one or two nodes. Modified positions of the entities maximize the modified mesh quality complying with the predicted crack path (which depends on the specific propagation theory in use). Compared with XFEM or with classical tip remeshing, the proposed solution has algorithmic and generality advantages. The propagation algorithm is simpler than the aforementioned alternatives and the approach is independent of the underlying element used for ...
In the present paper, we address the delicate balance between computational efficiency and level of ...
AbstractWe describe a finite element-based method to propagate multiple fractures simultaneously. Th...
A numerical model based on moving mesh strategy is proposed to simulate the evolution of internal ma...
We propose an alternative, simpler algorithm for FEM-based computational fracture in brittle, quasi-...
Within the theme of ductile fracture in metals, we propose an algorithm for FEM-based computational ...
We propose alternative methods for performing FE-based computational fracture: a mixed mode extrinsi...
In the context of plane fracture problems, we introduce an algorithm based on our previously propose...
Finite strain fracture of plates and shells with configurational forces and edge rotatio
This paper presents a computational framework for quasi-static brittle fracture in three dimensional...
A computationally efficient mesh objective algorithm for modeling mode-I cracks is developed and imp...
With the theme of fracture of finite-strain plates and shells based on a phase-field model of crack ...
A variational formulation of quasi-static brittle fracture in elastic solids at small strains is pro...
We propose a crack propagation algorithm which is independent of particular constitutive laws and sp...
The numerical description of discrete cracks and their propagation remains one of the main difficult...
This paper presents a computational framework for quasi-static brittle fracture in three dimensional...
In the present paper, we address the delicate balance between computational efficiency and level of ...
AbstractWe describe a finite element-based method to propagate multiple fractures simultaneously. Th...
A numerical model based on moving mesh strategy is proposed to simulate the evolution of internal ma...
We propose an alternative, simpler algorithm for FEM-based computational fracture in brittle, quasi-...
Within the theme of ductile fracture in metals, we propose an algorithm for FEM-based computational ...
We propose alternative methods for performing FE-based computational fracture: a mixed mode extrinsi...
In the context of plane fracture problems, we introduce an algorithm based on our previously propose...
Finite strain fracture of plates and shells with configurational forces and edge rotatio
This paper presents a computational framework for quasi-static brittle fracture in three dimensional...
A computationally efficient mesh objective algorithm for modeling mode-I cracks is developed and imp...
With the theme of fracture of finite-strain plates and shells based on a phase-field model of crack ...
A variational formulation of quasi-static brittle fracture in elastic solids at small strains is pro...
We propose a crack propagation algorithm which is independent of particular constitutive laws and sp...
The numerical description of discrete cracks and their propagation remains one of the main difficult...
This paper presents a computational framework for quasi-static brittle fracture in three dimensional...
In the present paper, we address the delicate balance between computational efficiency and level of ...
AbstractWe describe a finite element-based method to propagate multiple fractures simultaneously. Th...
A numerical model based on moving mesh strategy is proposed to simulate the evolution of internal ma...