期刊
INTERNATIONAL JOURNAL OF FATIGUE
卷 163, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ijfatigue.2022.107031
关键词
Critical plane-based criterion; Extreme value theory; Fatigue limit; Infinite fatigue life; Non-metallic inclusions
资金
- Italian Ministry of University and Research [2017HFPKZY]
This study proposed a procedure for assessing the fatigue strength of high strength steel containing non-metallic inclusions, utilizing defect content analysis, root area-parameter model, and multiaxial critical plane-based criterion to determine the distribution of NMIs and optimize fatigue strength estimation accuracy. The results obtained through this procedure were compared with experimental data and results from other criteria.
In the present paper, a procedure for fatigue strength assessment of high strength steel (AISI 4140) containing non-metallic inclusions (NMIs) is proposed. Such a procedure implements: (i) a defect content analysis, (ii) the root area-parameter model, and (iii) the multiaxial critical plane-based criterion by Carpinteri at al. According to the defect content analysis, the distribution of NMIs is determined in two cross-sections perpendicular to the maximum principal stress directions under normal and shear uniaxial cyclic loadings. The return periods, obtained optimising the accuracy of the procedure in terms of fatigue strength estimation, are determined by taking into account five different prediction volumes. The results achieved through the proposed procedure are compared with both the experimental data and the results obtained employing the Carpinteri et al. criterion without optimisation.
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