Fatigue strength improvement of aluminum alloy with surface defect by ball burnishing

Ball burnishing (BB) is a surface finishing process that involves moving the tool while pressing it against the workpiece under rolling contact. We investigated the effects of BB on the fatigue strength of an aluminum alloy with a semicircular slit simulating an initial surface defect. After perform...

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Bibliographic Details
Published in:Fatigue & fracture of engineering materials & structures 2024-09, Vol.47 (9), p.3464-3473
Main Authors: Wakamatsu, Kohei, Takahashi, Koji, Koyama, Yuka, Taniguchi, Masanori
Format: Article
Language:English
Subjects:
aluminum alloy
Aluminum alloys
Aluminum base alloys
Ball burnishing
Burnishing
comprehensive residual stress
Compressive properties
Compressive strength
Contact stresses
Fatigue failure
Fatigue strength
Fracture mechanics
Heat treating
Metal fatigue
Residual stress
Rolling contact
surface defect
Surface defects
Surface finishing
Surface roughness
Workpieces
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Summary:Ball burnishing (BB) is a surface finishing process that involves moving the tool while pressing it against the workpiece under rolling contact. We investigated the effects of BB on the fatigue strength of an aluminum alloy with a semicircular slit simulating an initial surface defect. After performing BB under a typical condition, compressive residual stress was induced to a depth of 0.4 mm, with a reduction in surface roughness by 81%. Consequently, the fatigue strength increased by 22%. BB prevented the fatigue strength reduction caused by the 0.1 mm deep slit. The result indicated that BB could render the below 0.1 mm deep surface defect harmless in terms of fatigue strength. The maximum depth of surface defect that can be rendered harmless is 0.18 mm according to fracture mechanics, which is in agreement with the experimental results. Highlights Ball burnishing (BB) can introduce large compressive residual stress along with smoothing. BB can render a 0.1 mm deep slit harmless in terms of fatigue strength. Defect size rendered harmless can be estimated based on fracture mechanics. Compressive residual stress is the main factor rendering the surface defect harmless.
ISSN:8756-758X
1460-2695
DOI:10.1111/ffe.14372