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Auteurs principaux: Liang, Zhida, Maawad, Emad, Pyczak, Florian
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2405.02869
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author Liang, Zhida
Maawad, Emad
Pyczak, Florian
author_facet Liang, Zhida
Maawad, Emad
Pyczak, Florian
contents Over past decades, high energy X-ray diffraction techniques at synchrotron beamline offer us the unique possibility to follow concomitantly some mechanisms on the grain level in metallic materials. Crystal rotation, as one important factor for the crystal orientation distribution, usually influences the anisotropic properties of materials. Crystal rotation has been visualized in deformation, recrystallization, and chemical reaction processes. In this study, we firstly visualized an unexpected crystal rotation during heating up of superalloys as well by in situ 3DXRD scanning microscopy which has not been previously reported yet. The crystal rotation was found to be related to the locked-in first order residual strain relief during the annealing treatment. In addition, intermittent dynamic, i.e., some individual diffraction spots from Debye-Scherrer rings appearing, disappearing, and reappearing, occurred in this study which has ever been thought to be caused by subgrain formation in deformation experiments. However, by residual strain analysis coupled with finite element simulation, we found that the intermittent dynamic is married with thermal expansion, crystal distortion, and crystal rotation as well. This finding opens a new world for deeply understanding the residual strain relief during materials, particularly metal, heating.
format Preprint
id arxiv_https___arxiv_org_abs_2405_02869
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Crystal rotation during alloy heating
Liang, Zhida
Maawad, Emad
Pyczak, Florian
Materials Science
Over past decades, high energy X-ray diffraction techniques at synchrotron beamline offer us the unique possibility to follow concomitantly some mechanisms on the grain level in metallic materials. Crystal rotation, as one important factor for the crystal orientation distribution, usually influences the anisotropic properties of materials. Crystal rotation has been visualized in deformation, recrystallization, and chemical reaction processes. In this study, we firstly visualized an unexpected crystal rotation during heating up of superalloys as well by in situ 3DXRD scanning microscopy which has not been previously reported yet. The crystal rotation was found to be related to the locked-in first order residual strain relief during the annealing treatment. In addition, intermittent dynamic, i.e., some individual diffraction spots from Debye-Scherrer rings appearing, disappearing, and reappearing, occurred in this study which has ever been thought to be caused by subgrain formation in deformation experiments. However, by residual strain analysis coupled with finite element simulation, we found that the intermittent dynamic is married with thermal expansion, crystal distortion, and crystal rotation as well. This finding opens a new world for deeply understanding the residual strain relief during materials, particularly metal, heating.
title Crystal rotation during alloy heating
topic Materials Science
url https://arxiv.org/abs/2405.02869