Spectral methods use analytical expressions to estimate the fatigue damage in vibrating structures subjected to uniaxial or multiaxial random stresses. They exploit the random vibration theory which idealizes the random stress as a random process characterized by a power spectral density (PSD) in the frequency-domain. The random process is hypothesized to be stationary or non-stationary, Gaussian or non-Gaussian, and with narrow-band or wide-band power spectral density. The accuracy of analytical spectral solutions depends on whether such hypotheses are fulfilled by actual random time-histories encountered in practice. Knowing the range of applicability of each spectral method is then of utmost importance to avoid estimation errors. After ...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...
The present paper aims to propose a frequency-domain formulation of a stress invariant based multiax...
Predicting the vibration-fatigue-life of engineering structures subjected to random loading is a cri...
The fatigue life of vibrating structures subjected to uniaxial or multiaxial random stresses can be ...
Service loadings in structures and mechanical components can be modelled as random processes. The du...
This paper proposes a frequency domain method to estimate the high-cycle fatigue damage for multiaxi...
This paper presents a fatigue criterion based on stress invariants for the frequency-based analysis ...
The contribution deals with an influence of power spectral densities of random loading processes on ...
The contribution includes the results of experimental works aiming to find a new methodology for the...
This paper presents computationally efficient frequency domain methods for estimating the high-cycle...
The paper’s content allowed us to determine the fatigue life of a component that is being subjected ...
This paper investigates the variability of the fatigue damage caused by the randomness of a stationa...
Random Vibrations: Theory and Practice covers the theory and analysis of mechanical and structural s...
The paper presents a new fatigue damage assessment model defined for the strain energy density param...
Determination of the stresses and displacements which occur in response to random excitations cannot...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...
The present paper aims to propose a frequency-domain formulation of a stress invariant based multiax...
Predicting the vibration-fatigue-life of engineering structures subjected to random loading is a cri...
The fatigue life of vibrating structures subjected to uniaxial or multiaxial random stresses can be ...
Service loadings in structures and mechanical components can be modelled as random processes. The du...
This paper proposes a frequency domain method to estimate the high-cycle fatigue damage for multiaxi...
This paper presents a fatigue criterion based on stress invariants for the frequency-based analysis ...
The contribution deals with an influence of power spectral densities of random loading processes on ...
The contribution includes the results of experimental works aiming to find a new methodology for the...
This paper presents computationally efficient frequency domain methods for estimating the high-cycle...
The paper’s content allowed us to determine the fatigue life of a component that is being subjected ...
This paper investigates the variability of the fatigue damage caused by the randomness of a stationa...
Random Vibrations: Theory and Practice covers the theory and analysis of mechanical and structural s...
The paper presents a new fatigue damage assessment model defined for the strain energy density param...
Determination of the stresses and displacements which occur in response to random excitations cannot...
This thesis presents several developments in analysing the fatigue life of mechanical components sub...
The present paper aims to propose a frequency-domain formulation of a stress invariant based multiax...
Predicting the vibration-fatigue-life of engineering structures subjected to random loading is a cri...