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- Title
Evaluating the fatigue limit of metals having surface compressive residual stress and exhibiting shakedown.
- Authors
Arakawa, Jinta; Hanaki, Tatsuya; Hayashi, Yoshiichirou; Akebono, Hiroyuki; Sugeta, Atsushi
- Abstract
The objective of the study described in this article is to evaluate the effect of shakedown of surface compressive residual stresses introduced by shot peening on fatigue limit of stainless steel. First, the tension‐compression fatigue tests were conducted on ASTM CA6NM specimens under controlled load and displacement conditions to acquire a fatigue limit diagram under various compressive mean stress. The results showed that shakedown of negative mean stress occurs under controlled displacement. We then carried out in‐plane–bending fatigue tests under controlled load conditions on welded ASTM 309 stainless steel specimens with surface compressive residual stress introduced by ultrasonic shot peening. The results provide a fatigue limit of 415 MPa, which agrees with the value of 404 MPa calculated based on a modified Goodman line considering shakedown. Therefore, it is suggested that the surface layer is restricted by the internal bulk that creates controlled displacement conditions and the shakedown of surface compressive residual stress occurs.
- Subjects
METAL fatigue; METALLIC surfaces; LASER peening; STAINLESS steel fatigue; MATERIAL fatigue; RESIDUAL stresses; SHOT peening
- Publication
Fatigue & Fracture of Engineering Materials & Structures, 2020, Vol 43, Issue 2, p211
- ISSN
8756-758X
- Publication type
Article
- DOI
10.1111/ffe.13097