Fracture is one of the most commonly encountered failure modes of engineering materials and structures. Prevention of cracking-induced failure is, therefore, essential to save lives and contain costs and should be considered a social commitment. However, the understanding of nucleation and propagation of complex crack patterns in real structures is still an open problem, for which traditional techniques are unable to provide satisfactory results. In this field, the variational formulation of fracture mechanics as an energy minimisation problem opened new perspectives; in particular, the phase field approach to fracture revealed to be a versatile and powerful tool for the investigation of crack problems. Despite the widespread use of plates ...
This paper addresses the modeling of fracture in quasi-brittle materials using a phase-field approac...
Phase-field approaches to fracture based on energy minimization principles have been rapidly gaining...
In this paper, a computational framework for simulating ductile fracture in multipatch shell structu...
Fracture is one of the most commonly encountered failure modes of engineering materials and structur...
We present an approach for phase-field modeling of fracture in thin structures like plates and shell...
The prediction of fracture in thin-walled structures is decisive for a wide range of applications. M...
Heterogeneity is present in most of natural and engineering systems. In this contribution, I present...
This thesis is concerned with a phase field model for brittle fracture. The high potential of phas...
Abstract Recent advancements on the variational approach to fracture for the prediction of complex c...
With the theme of fracture of finite-strain plates and shells based on a phase-field model of crack ...
Fracture is a fundamental mechanism of materials failure. Propagating cracks can exhibit a rich dyna...
Phase field theory provides a new and different method of modeling crack propagation. This method ut...
AbstractConstitutive assumptions involved in phase field models of fracture in order to capture the ...
Computationally handling cracks generally results in numerically unstable results. Specifically hand...
Abstract Phase field fracture models are able to reproduce a wide range of phenomena, which are obse...
This paper addresses the modeling of fracture in quasi-brittle materials using a phase-field approac...
Phase-field approaches to fracture based on energy minimization principles have been rapidly gaining...
In this paper, a computational framework for simulating ductile fracture in multipatch shell structu...
Fracture is one of the most commonly encountered failure modes of engineering materials and structur...
We present an approach for phase-field modeling of fracture in thin structures like plates and shell...
The prediction of fracture in thin-walled structures is decisive for a wide range of applications. M...
Heterogeneity is present in most of natural and engineering systems. In this contribution, I present...
This thesis is concerned with a phase field model for brittle fracture. The high potential of phas...
Abstract Recent advancements on the variational approach to fracture for the prediction of complex c...
With the theme of fracture of finite-strain plates and shells based on a phase-field model of crack ...
Fracture is a fundamental mechanism of materials failure. Propagating cracks can exhibit a rich dyna...
Phase field theory provides a new and different method of modeling crack propagation. This method ut...
AbstractConstitutive assumptions involved in phase field models of fracture in order to capture the ...
Computationally handling cracks generally results in numerically unstable results. Specifically hand...
Abstract Phase field fracture models are able to reproduce a wide range of phenomena, which are obse...
This paper addresses the modeling of fracture in quasi-brittle materials using a phase-field approac...
Phase-field approaches to fracture based on energy minimization principles have been rapidly gaining...
In this paper, a computational framework for simulating ductile fracture in multipatch shell structu...