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Experimental characterization and numerical modeling of the influence of a proof load on the fatigue resistance of welded structures

Authors
  • HEYRAUD, Hugo
  • MAREAU, Charles
  • LEFEBVRE, Fabien
  • AMUZUGA, Philippe
  • HAUTEVILLE, Robin
  • MOREL, Franck
  • JUBIN, Laurent
  • BELLETT, Daniel
  • LEBLANC, Théo
Publication Date
Mar 11, 2023
Source
SAM : Science Arts et Métiers
Keywords
Language
English
License
Green

Abstract

The influence of a proof load, or an initial overload, on the fatigue resistance of welded structures is investigated in this study. Arc welded stiffeners made of S355 steel are considered and fatigue-tested in as-welded and proof-loaded conditions. X-ray diffraction analyses are carried out to evaluate the influence of a proof load on the residual stress field. To better understand the role of a proof load on the mechanical fields in the stress concentration zones, a numerical approach based on elasto-plastic finite element analyses is proposed. The methodology includes a non-local multiaxial fatigue criterion, which integrates a strain hardening contribution, that makes it possible to estimate the number of cycles to failure. The comparison between experimental and numerical results indicates that the beneficial effect of a proof load on the fatigue resistance can be mainly attributed to residual stress and strain hardening effects. The final result is a master SN curve adapted to the fatigue design of stiffener structures, tested under different loading conditions.

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