The two main approaches to the modelling of discontinuities are reviewed concisely, followed by a discussion of cohesive models for fracture. Emphasis is put on a novel approach to incorporate triaxiality into cohesive-zone models, and on the representation of cohesive crack models by phase-field models.</p
Due to its simplicity, cohesive zone modeling is largely used for a variety of applications, includi...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
One of the fundamental aspects in cohesive zone modeling is the definition of the traction-separatio...
The two main approaches to the modelling of discontinuities are reviewed concisely, followed by a di...
AbstractMulti-scale methods provide a new paradigm in many branches of sciences, including applied m...
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...
The micromechanical models of damage have found increasing interest. The general advantage, compared...
ABSTRACT. A comparison between the prediction of crack propagation through an adhesive interface bas...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
Cohesive-zone models for interfaces incorporate both strength and energy parameters. There-fore, the...
Evolving discontinuities can be modelled in a truly discrete sense, or in a smeared or continuum man...
This contribution focuses on a strong discontinuity formulation of the crack kinematics that exploit...
AbstractA cohesive surface theory of fracture is a phenomenological continuum framework that is clos...
The cohesive-zone model has proven to be an effective tool to model non-linear fracture processes, s...
Due to its simplicity, cohesive zone modeling is largely used for a variety of applications, includi...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
One of the fundamental aspects in cohesive zone modeling is the definition of the traction-separatio...
The two main approaches to the modelling of discontinuities are reviewed concisely, followed by a di...
AbstractMulti-scale methods provide a new paradigm in many branches of sciences, including applied m...
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...
The micromechanical models of damage have found increasing interest. The general advantage, compared...
ABSTRACT. A comparison between the prediction of crack propagation through an adhesive interface bas...
In this paper we first recapitulate some basic notions of brittle and cohesive fracture models, as w...
Cohesive-zone models for interfaces incorporate both strength and energy parameters. There-fore, the...
Evolving discontinuities can be modelled in a truly discrete sense, or in a smeared or continuum man...
This contribution focuses on a strong discontinuity formulation of the crack kinematics that exploit...
AbstractA cohesive surface theory of fracture is a phenomenological continuum framework that is clos...
The cohesive-zone model has proven to be an effective tool to model non-linear fracture processes, s...
Due to its simplicity, cohesive zone modeling is largely used for a variety of applications, includi...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
One of the fundamental aspects in cohesive zone modeling is the definition of the traction-separatio...
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