In the present paper, the capability of two multiaxial fatigue criteria in both estimating the fatigue life and predicting the crack initiation path of metallic components under random loading is investigated. As a matter of fact, it is very difficult to find in the literature the predicted crack initiation path data when the loading has a random nature. To such an aim, an experimental campaign performed at the Opole University of Technology on a construction steel 10HNAP, under biaxial non-proportional random loading, is simulated by means of both a time-domain criterion and a frequency-domain one.

An efficient time-domain fatigue analysis and its comparison to spectral fatigue assessment for construction steel 10HNAP

Ronchei C.;
2022-01-01

Abstract

In the present paper, the capability of two multiaxial fatigue criteria in both estimating the fatigue life and predicting the crack initiation path of metallic components under random loading is investigated. As a matter of fact, it is very difficult to find in the literature the predicted crack initiation path data when the loading has a random nature. To such an aim, an experimental campaign performed at the Opole University of Technology on a construction steel 10HNAP, under biaxial non-proportional random loading, is simulated by means of both a time-domain criterion and a frequency-domain one.
2022
Biaxial random loading
Crack initiation path orientation
Fatigue life
Frequency-domain criterion
Time-domain criterion
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11770/350699
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