In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as well as the phase-field approximation to fracture. Next, a critical assessment is made of the sensitivity of the phase-field approach to brittle fracture, in particular the degradation function, and the use of monolithic versus partitioned solution schemes. The last part of the paper makes extensions to a recently developed phase-field model for cohesive fracture, in particular for propagating cracks. Using some simple examples the current state of the cohesive phase-field model is shown
Recently, phase-field approaches have gained popularity as a versatile tool for simulating fracture ...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
In this paper, a phase-field model for cohesive fracture is developed. After casting the cohesive zo...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Recently, phase-field approaches have gained popularity as a versatile tool for simulating fracture ...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
In this paper, a phase-field model for cohesive fracture is developed. After casting the cohesive zo...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
Recently, phase-field approaches have gained popularity as a versatile tool for simulating fracture ...
Multi-scale methods provide a new paradigm in many branches of sciences, including applied mechanics...
In this paper, a phase-field model for cohesive fracture is developed. After casting the cohesive zo...