Add to ORKGA multiaxial high-cycle fatigue criterion for random loading, recently proposed by the authors [1], is here applied to some tests characterized by variable amplitude combined bending and torsion. The criterion, applicable to hard metals, considers an equivalent uniaxial stress defined through a nonlinear combination of stress components acting on the critical plane, whose orientation is correlated to a weighted mean position of the principal stress directions. A specific cycle counting method and a general damage model are then employed to process such an equivalent stress and to predict lifetime
Most of the prior studies on the prediction of fatigue lives have been limited to uniaxial loading c...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
A multiaxial fatigue criterion for random loading is presented. Firstly, the orientation of the cri...
A multiaxial fatigue criterion for random loading is proposed. Firstly, the orientation of the criti...
A method to estimate the fatigue life of a component subjected to variable amplitude multiaxial load...
In the present paper, the fatigue lifetime of metallic structural components subjected to variable a...
This paper summarises an attempt to devise a new criterion suitable for predicting low-cycle fatigue...
A procedure for fatigue life estimation of components and structures under variable amplitude multia...
This paper summarises an attempt to devise an engineering method suitable for predicting fatigue lif...
Some multiaxial high-cycle fatigue criteria based on the so-called critical plane approach are revie...
An overview of multiaxial fatigue life prediction methodologies and tests is provided in the present...
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
In order to assess the fatigue behaviour of structural components under a complex (cyclic or random)...
Most of the prior studies on the prediction of fatigue lives have been limited to uniaxial loading c...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
A multiaxial fatigue criterion for random loading is presented. Firstly, the orientation of the cri...
A multiaxial fatigue criterion for random loading is proposed. Firstly, the orientation of the criti...
A method to estimate the fatigue life of a component subjected to variable amplitude multiaxial load...
In the present paper, the fatigue lifetime of metallic structural components subjected to variable a...
This paper summarises an attempt to devise a new criterion suitable for predicting low-cycle fatigue...
A procedure for fatigue life estimation of components and structures under variable amplitude multia...
This paper summarises an attempt to devise an engineering method suitable for predicting fatigue lif...
Some multiaxial high-cycle fatigue criteria based on the so-called critical plane approach are revie...
An overview of multiaxial fatigue life prediction methodologies and tests is provided in the present...
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
In order to assess the fatigue behaviour of structural components under a complex (cyclic or random)...
Most of the prior studies on the prediction of fatigue lives have been limited to uniaxial loading c...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....