The fatigue assessment of structural components under a complex multiaxial stress history is one of the most difficult engineering challenge. As is well-known, several materials present a conventional fatigue strength at a given number of cycles under constant amplitude fatigue loading, while a conventional fatigue strength at a given number of cycles cannot be defined in the case of arbitrary varying and/or multiaxial stress histories. Several approaches have been developed to study this problem: empirical models, critical plane approaches, average stress criterion and stress invariant approaches. The damage phenomena can also be assessed by using an endurance function. In the present paper, a model for fatigue damage evaluation in the...
An innovative critical plane determination approach with weight-averaged largest fatigue damage is p...
The aim of this research work is to develop a finite element numerical tool able to predict accurate...
A method to estimate the fatigue life of a component subjected to variable amplitude multiaxial load...
In order to assess the fatigue behaviour of structural components under a complex (cyclic or random)...
The mechanical behaviour of structural components subjected to multiaxial fatigue loading is very im...
This paper summarises an attempt to propose a novel stress invariant based approach suitable for est...
Multiaxial fatigue is one of the most common failure mechanisms encountered by the mechanical compon...
A brief overview of some important issues in multiaxial fatigue and life estimation is presented. Th...
A multiaxial fatigue failure criterion is proposed based on the strain energy density damage law. Th...
This paper presents a new hybrid approach for multiaxial fatigue life estimation, based on continuum...
A continuum damage mechanics model for low cycle fatigue failure of initially isotropic materials un...
A procedure for fatigue life estimation of components and structures under variable amplitude multia...
Multiaxial fatigue is a very important physical phenomenon to take into account in several mechanic...
Abstract. Research on the fatigue resistance of mechanical components / structures has been proceedi...
AbstractGenerally, structures and mechanical components are subjected to multiaxial loadings under r...
An innovative critical plane determination approach with weight-averaged largest fatigue damage is p...
The aim of this research work is to develop a finite element numerical tool able to predict accurate...
A method to estimate the fatigue life of a component subjected to variable amplitude multiaxial load...
In order to assess the fatigue behaviour of structural components under a complex (cyclic or random)...
The mechanical behaviour of structural components subjected to multiaxial fatigue loading is very im...
This paper summarises an attempt to propose a novel stress invariant based approach suitable for est...
Multiaxial fatigue is one of the most common failure mechanisms encountered by the mechanical compon...
A brief overview of some important issues in multiaxial fatigue and life estimation is presented. Th...
A multiaxial fatigue failure criterion is proposed based on the strain energy density damage law. Th...
This paper presents a new hybrid approach for multiaxial fatigue life estimation, based on continuum...
A continuum damage mechanics model for low cycle fatigue failure of initially isotropic materials un...
A procedure for fatigue life estimation of components and structures under variable amplitude multia...
Multiaxial fatigue is a very important physical phenomenon to take into account in several mechanic...
Abstract. Research on the fatigue resistance of mechanical components / structures has been proceedi...
AbstractGenerally, structures and mechanical components are subjected to multiaxial loadings under r...
An innovative critical plane determination approach with weight-averaged largest fatigue damage is p...
The aim of this research work is to develop a finite element numerical tool able to predict accurate...
A method to estimate the fatigue life of a component subjected to variable amplitude multiaxial load...