A computational framework to model fatigue fracture in structures based on the phase-field method and the solid-shell concept is herein presented. With the aim of achieving a locking free solid-shell finite element formulation with fracture-prediction capabilities, both the combination of the Enhanced Assumed Strain (EAS) and Assumed Natural Strain (ANS) methods with phase field of fracture is exploited. In order to achieve realistic prediction, the crack driving force is computed using positive/negative split of the stress field. Moreover, the difference between the driving forces are pinpointed. Furthermore, based on thermodynamic considerations, the free energy function is modified to introduce the fatigue effect via a degradation of the...
We present a new phase field framework for modelling fracture and fatigue in Shape Memory Alloys (SM...
Abstract In this study, a new 3D finite element formulation which enables simulating the interaction...
Fracture is the total or partial separation of an initially intact body through the propagation of o...
In this work, the phase-field approach to fracture is extended to model fatigue failure in high- and...
We present a phase field based MITC4+ shell element formulation to simulate fracture propagation in ...
The phase field paradigm, in combination with a suitable variational structure, has opened a path fo...
Fracture of technological thin-walled components can notably limit the performance of their corresp...
The phase-field approach to fracture naturally captures the emergence of complex crack patterns and ...
The phase-field method has been proven as a robust and computationally efficient approach to model t...
We present a phase field-based framework for modelling fatigue damage in Shape Memory Alloys (SMAs)....
We present a generalised phase field-based formulation for predicting fatigue crack growth in metals...
Due to its computational robustness and versatility, the phase field fracture model has become the p...
This paper addresses the modeling of fracture in quasi-brittle materials using a phase-field approac...
We present a computational framework to explore the effect of microstructure and constituent propert...
Phase field modeling of fracture has been in the focus of research for over a decade now. The field ...
We present a new phase field framework for modelling fracture and fatigue in Shape Memory Alloys (SM...
Abstract In this study, a new 3D finite element formulation which enables simulating the interaction...
Fracture is the total or partial separation of an initially intact body through the propagation of o...
In this work, the phase-field approach to fracture is extended to model fatigue failure in high- and...
We present a phase field based MITC4+ shell element formulation to simulate fracture propagation in ...
The phase field paradigm, in combination with a suitable variational structure, has opened a path fo...
Fracture of technological thin-walled components can notably limit the performance of their corresp...
The phase-field approach to fracture naturally captures the emergence of complex crack patterns and ...
The phase-field method has been proven as a robust and computationally efficient approach to model t...
We present a phase field-based framework for modelling fatigue damage in Shape Memory Alloys (SMAs)....
We present a generalised phase field-based formulation for predicting fatigue crack growth in metals...
Due to its computational robustness and versatility, the phase field fracture model has become the p...
This paper addresses the modeling of fracture in quasi-brittle materials using a phase-field approac...
We present a computational framework to explore the effect of microstructure and constituent propert...
Phase field modeling of fracture has been in the focus of research for over a decade now. The field ...
We present a new phase field framework for modelling fracture and fatigue in Shape Memory Alloys (SM...
Abstract In this study, a new 3D finite element formulation which enables simulating the interaction...
Fracture is the total or partial separation of an initially intact body through the propagation of o...