Reverse identification of short–long crack threshold fatigue stress intensity factors from plain fretting crack arrest analysis

•Global description of short-to-long fretting crack arrest conditions (4 materials).•SIF estimation at the fretting crack tip (kinked crack description).•Reverse FEM estimation of SIF threshold from fretting cracking: ΔKth(fr).•Good correlation between fatigue and fretting long crack thresholds (ΔK0...

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Bibliographic Details
Published in:Engineering fracture mechanics 2015-01, Vol.134, p.267-285
Main Authors: de Pannemaecker, A., Fouvry, S., Buffiere, J.Y.
Format: Article
Language:English
Subjects:
Aluminum base alloys
Carbon manganese steels
Condensed Matter
Crack arrest
Crack propagation
Cylinders
Fatigue failure
Fracture mechanics
Fretting
Fretting cracking
Materials Science
Medium carbon steels
Physics
Short crack behaviour
Stress intensity factors
Thresholds
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Summary:•Global description of short-to-long fretting crack arrest conditions (4 materials).•SIF estimation at the fretting crack tip (kinked crack description).•Reverse FEM estimation of SIF threshold from fretting cracking: ΔKth(fr).•Good correlation between fatigue and fretting long crack thresholds (ΔK0(fr)=ΔK0). Plain fretting systematically implies crack arrest condition when the crack tip is far enough from the surface stressing. Considering such evolution, an original reverse FEM modelling of arrested cylinder/plane fretting cracks is introduced to extract the thresholds SIF of materials (ΔKth). Adjusting contact pressure and cylinder radius, short to long crack arrest responses are quantified and the corresponding “fretting” ΔKth identified. Steel and aluminium alloy analyses (35NiCrMo16, AISI-1034, 7075-T6, 2024-T351) confirm the stability of this approach: the dispersion between long crack ΔKth fretting estimations and conventional fatigue data is less than 10% whereas the short crack evolutions confirm the El-Haddad formalism.
ISSN:0013-7944
1873-7315
DOI:10.1016/j.engfracmech.2014.11.001