A multiaxial fatigue criterion for random loading is presented. Firstly, the orientation of the critical plane (verification plane, i.e. the plane on which fatigue life estimation is carried out), is determined from the weighted mean directions of the principal stresses. Then, the scalar value of the normal stress vector perpendicular to the critical plane is taken as the cycle counting variable, since the direction of such a vector is fixed with respect to time (conversely to the time-varying direction of the shear stress vector), and a nonlinear combination of normal and shear stress components acting on the critical plane is used to define an equivalent stress amplitude. Finally, a damage accumulation model is employed to process such...
In the present paper, a new computationally-efficient frequency domain formulation of the critical p...
Structures and mechanical components are frequently subjected to time-varying loading characterised...
Multiaxial fatigue is a very important physical phenomenon to take into account in several mechanic...
A multiaxial fatigue criterion for random loading is proposed. Firstly, the orientation of the criti...
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A frequency-domain critical plane criterion is here employed to estimate fatigue life of smooth meta...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
Fatigue life of different metallic materials under multiaxial loading is evaluated by employing the ...
A multiaxial high-cycle fatigue criterion for random loading, recently proposed by the authors [1], ...
In the present paper, a new computationally-efficient frequency domain formulation of the critical p...
A frequency-domain critical plane criterion is here proposed to estimate fatigue life of smooth meta...
In the literature, there are many criteria of multiaxial fatigue. They are based on various assumpt...
An innovative critical plane determination approach with weight-averaged largest fatigue damage is p...
In the present paper, a new computationally-efficient frequency domain formulation of the critical p...
Structures and mechanical components are frequently subjected to time-varying loading characterised...
Multiaxial fatigue is a very important physical phenomenon to take into account in several mechanic...
A multiaxial fatigue criterion for random loading is proposed. Firstly, the orientation of the criti...
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A frequency-domain critical plane criterion is here employed to estimate fatigue life of smooth meta...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
Fatigue life of different metallic materials under multiaxial loading is evaluated by employing the ...
A multiaxial high-cycle fatigue criterion for random loading, recently proposed by the authors [1], ...
In the present paper, a new computationally-efficient frequency domain formulation of the critical p...
A frequency-domain critical plane criterion is here proposed to estimate fatigue life of smooth meta...
In the literature, there are many criteria of multiaxial fatigue. They are based on various assumpt...
An innovative critical plane determination approach with weight-averaged largest fatigue damage is p...
In the present paper, a new computationally-efficient frequency domain formulation of the critical p...
Structures and mechanical components are frequently subjected to time-varying loading characterised...
Multiaxial fatigue is a very important physical phenomenon to take into account in several mechanic...