论文信息 - Multiaxial Fatigue Criteria for Random Stress Response – Theoretical and Experimental Comparison

Multiaxial Fatigue Criteria for Random Stress Response – Theoretical and Experimental Comparison

Abstract Randomly excited structures are exposed to random stress loads that can result in fatigue failure. Prediction of such failure requires good structural dynamics and fatigue models. This study researches the multiaxial criteria which reduce the multiaxial stress state to an equivalent uniaxial stress. Several frequency-domain criteria can be found in literature. However, experimental comparison studies are scarce. This research presents and then theoretically and experimentally compares selected frequency-domain multiaxial criteria, namely: maximum normal stress, maximum shear stress and the C-S criterion. Time-to-failure results are compared across multiaxial criteria and with experimental data. Results show that selected methods give reliable estimates.

Janko Slavič | Miha Boltežar | Matjaž Mršnik

[1] André Preumont,et al. Predicting random high-cycle fatigue life with finite elements , 1994 .

[2] D. Benasciutti,et al. Spectral methods for lifetime prediction under wide-band stationary random processes , 2005 .

[3] Adam Niesłony,et al. Spectral Method in Multiaxial Random Fatigue , 2007 .

[4] Janko Slavič,et al. Frequency-based structural modification for the case of base excitation , 2013 .

[5] Andrea Carpinteri,et al. Reformulation in the frequency domain of a critical plane-based multiaxial fatigue criterion , 2014 .

[6] Adam Niesłony,et al. Comparison of some selected multiaxial fatigue failure criteria dedicated for spectral method , 2010 .

[7] Tadeusz Łagoda,et al. Comparison of the fatigue characteristics for some selected structural materials under bending and torsion , 2011 .

[8] Roberto Tovo,et al. A stress invariant based spectral method to estimate fatigue life under multiaxial random loading , 2011 .

[9] Nuno M. M. Maia,et al. Theoretical and Experimental Modal Analysis , 1997 .

[10] Turan Dirlik,et al. Application of computers in fatigue analysis , 1985 .

[11] Janko Slavič,et al. Frequency-domain methods for a vibration-fatigue-life estimation – Application to real data , 2013 .