This paper presents a probabilistic method for fatigue life estimation within the frequency domain for structural elements subjected to multiaxial random loadings. Multivariate Monte Carlo Simulation is used to account for the correlation between the stress components and their different probability of occurrence and, moreover, enables stochastics during damage analysis to be allowed for and, at the same time, uses any suitable, material dependent multiaxial fatigue criterion known from the time domain. Comparison of the evaluated fatigue damage with experimental results from vibration tests on a demonstrator, chosen from common application fields in the automobile industry, shows good correlation
This paper proposes a frequency domain method to estimate the high-cycle fatigue damage for multiaxi...
Service loadings in structures and mechanical components can be modelled as random processes. The du...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...
Engineering structures and components are often subjected to random fatigue loading produced, for e...
This work presents an application of a frequency-domain methodology developed for the fatigue damag...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
Engineering structures and components are often subjected to random fatigue loading produced, for ex...
The fatigue life of vibrating structures subjected to uniaxial or multiaxial random stresses can be ...
This paper presents computationally efficient frequency domain methods for estimating the high-cycle...
A simulation method is presented for the fatigue analysis of automotive and other products that are ...
Spectral methods use analytical expressions to estimate the fatigue damage in vibrating structures s...
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
Structures and mechanical components are frequently subjected to time-varying loading characterised...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
This paper proposes a frequency domain method to estimate the high-cycle fatigue damage for multiaxi...
Service loadings in structures and mechanical components can be modelled as random processes. The du...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...
Engineering structures and components are often subjected to random fatigue loading produced, for e...
This work presents an application of a frequency-domain methodology developed for the fatigue damag...
In the present paper, two critical plane-based criteria proposed by Carpinteri et al. are discussed....
A frequency-domain critical-plane criterion is reformulated in order to improve its accuracy in term...
Engineering structures and components are often subjected to random fatigue loading produced, for ex...
The fatigue life of vibrating structures subjected to uniaxial or multiaxial random stresses can be ...
This paper presents computationally efficient frequency domain methods for estimating the high-cycle...
A simulation method is presented for the fatigue analysis of automotive and other products that are ...
Spectral methods use analytical expressions to estimate the fatigue damage in vibrating structures s...
A multiaxial fatigue criterion for metals subjected to random loading is presented. Accordingly, the...
Structures and mechanical components are frequently subjected to time-varying loading characterised...
A frequency-domain High-Cycle Fatigue (HCF) criterion based on the critical plane approach is here p...
This paper proposes a frequency domain method to estimate the high-cycle fatigue damage for multiaxi...
Service loadings in structures and mechanical components can be modelled as random processes. The du...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...