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The slip activity during the transition from elastic to plastic tensile deformation of the Mg-Al-Mn sheet
- 1.0543965 - ÚJF 2022 RIV CN eng J - Článek v odborném periodiku
Dobroň, P. - Drozdenko, Daria - Fekete-Horváth, Klaudia - Knapek, Michal - Bohlen, J. - Chmelík, F.
The slip activity during the transition from elastic to plastic tensile deformation of the Mg-Al-Mn sheet.
Journal of Magnesium and Alloys. Roč. 9, č. 3 (2021), s. 1057-1067. ISSN 2213-9567. E-ISSN 2213-9567
Grant CEP: GA MŠMT EF16_013/0001794
Institucionální podpora: RVO:61389005
Klíčová slova: Magnesium sheet * Yield asymmetry * Acoustic emission * Clustering
Obor OECD: Materials engineering
Impakt faktor: 11.862, rok: 2021
Způsob publikování: Open access
https://doi.org/10.1016/j.jma.2020.12.010
The deformation behavior of the Mg-Al-Mn sheet was investigated during tensile loading along the rolling (RD) and transversal direction (TD) with special attention to the early stage of deformation. The activity of dislocation slip systems during the transition from elastic to plastic deformation was revealed by the acoustic emission (AE) technique. The parametrization and statistical AE analysis using the adaptive sequential k-mean (ASK) clustering provided necessary information about the individual deformation mechanisms and their evolution. The AE findings were supported by microstructural analyses, including in-situ secondary electron (SE) imaging and Schmid factor estimation for the activity of particular dislocation slip systems with respect to the loading direction. It was found that basal a slip is the dominating mechanism up to the stress of similar to 80 MPa in both loading directions with an absolute dominance during the RD-loading, while during the TD-loading, the contribution of prismatic a slip to the deformation at stresses above 50 MPa was determined. Below the yielding in both loading directions, the predominance of prismatic a over pyramidal c+a slip was found at the stress in the range of 80-110 MPa and the opposite tendency occurred at stresses between 110 and 140 MPa.
Trvalý link: http://hdl.handle.net/11104/0321053
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