Stress evolution in plastically deformed austenitic and ferritic steels determined using angle- and energy-dispersive diffraction - Cnam - Conservatoire national des arts et métiers
Article Dans Une Revue Materials Characterization Année : 2023

Stress evolution in plastically deformed austenitic and ferritic steels determined using angle- and energy-dispersive diffraction

Résumé

In the presented research, the intergranular elastic interaction and the second-order plastic incompatibility stress in textured ferritic and austenitic steels were investigated by means of diffraction. The lattice strains were measured inside the samples by the multiple reflection method using high energy X-rays diffraction during uniaxial in situ tensile tests. Comparing experiment with various models of intergranular interaction, it was found that the Eshelby-Kr¨oner model correctly approximates the X-ray stress factors (XSFs) for different re- flections hkl and scattering vector orientations. The verified XSFs were used to investigate the evolution of the first and second-order stresses in both austenitic and ferritic steels. It was shown that considering only the elastic anisotropy, the non-linearity of sin2ψ plots cannot be explained by crystallographic texture. Therefore, a more advanced method based on elastic-plastic self- consistent modeling (EPSC) is required for the analysis. Using such methodology the non-linearities of cos2φ plots were explained, and the evolutions of the first and second-order stresses were determined. It was found that plastic deformation of about 1–2% can completely exchange the state of second-order plastic incompatibility stresses.
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Dates et versions

hal-04187295 , version 1 (24-08-2023)

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M. Marciszko-Wiąckowska, A. Baczmański, Ch H Braham, M. Wątroba, S. Wroński, et al.. Stress evolution in plastically deformed austenitic and ferritic steels determined using angle- and energy-dispersive diffraction. Materials Characterization, 2023, 203, pp.1-19. ⟨10.1016/j.matchar.2023.113114⟩. ⟨hal-04187295⟩
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