A Weakest-Link Approach for Fatigue Limit of 30CrNiMo8 Steels (Preprint)

Abstract

The transfer of fatigue data from laboratory specimens to field components under multiaxial fatigue is a difficult task. This is particularly the case in the transfer of data from specimens with well-defined shapes to components in the field with arbitrary shapes. A number of effects are to be considered in the transfer of data from a laboratory specimen to a field component. These effects include: pure size effect, pure gradient effect or notch size effect, and load type effect. The research question for this study was: Can an effective weakest-link approach for the fatigue limit of 30CrNiMo8 steels be developed? The specific aims constructed to address the research question were: (1) to develop an algorithm for the weakest-link approach to capture the pure size effect; (2) to perform verification studies on the algorithm for the weakest-link approach; and (3) to investigate volume effect and other effects on predictions of the probabilities of failure. The theory of the weakest-link formulation combined with the Dang Van fatigue failure criteria was used to develop an algorithm for the calculated probability of failure.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2011

Accession Number

ADA548016

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