Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy

Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy

Binary and ternary Mg-1%Er/Mg-1%Er-1%Zn alloys were rolled and subsequently subjected to various heat treatments to study texture selection during recrystallization and following grain growth. The results revealed favorable texture alterations in both alloys and the formation of a unique ±40° transv...

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Main Authors: Fatim-Zahra Mouhib, Fengyang Sheng, Ramandeep Mandia, Risheng Pei, Sandra Korte-Kerzel, Talal Al-Samman
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Metals
Subjects:
magnesium-rare earth alloy
recrystallization
selective grain growth
texture
Online Access:https://www.mdpi.com/2075-4701/11/1/171
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spelling doaj-3ea9b07b33434d9d9390ede1b8bcf40d2021-01-20T00:01:11ZengMDPI AGMetals2075-47012021-01-011117117110.3390/met11010171Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc AlloyFatim-Zahra Mouhib0Fengyang Sheng1Ramandeep Mandia2Risheng Pei3Sandra Korte-Kerzel4Talal Al-Samman5Institute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyInstitute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyInstitute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyInstitute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyInstitute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyInstitute for Physical Metallurgy and Materials Physics, RWTH Aachen, 52056 Aachen, GermanyBinary and ternary Mg-1%Er/Mg-1%Er-1%Zn alloys were rolled and subsequently subjected to various heat treatments to study texture selection during recrystallization and following grain growth. The results revealed favorable texture alterations in both alloys and the formation of a unique ±40° transvers direction (TD) recrystallization texture in the ternary alloy. While the binary alloy underwent a continuous alteration of its texture and grain size throughout recrystallization and grain growth, the ternary alloy showed a rapid rolling (RD) to transvers direction (TD) texture transition occurring during early stages of recrystallization. Targeted electron back scatter diffraction (EBSD) analysis of the recrystallized fraction unraveled a selective growth behavior of recrystallization nuclei with TD tilted orientations that is likely attributed to solute drag effect on the mobility of specific grain boundaries. Mg-1%Er-1%Zn additionally exhibited a stunning microstructural stability during grain growth annealing. This was attributed to a fine dispersion of dense nanosized particles in the matrix that impeded grain growth by Zener drag. The mechanical properties of both alloys were determined by uniaxial tensile tests combined with EBSD assisted slip trace analysis at 5% tensile strain to investigate non-basal slip behavior. Owing to synergic alloying effects on solid solution strengthening and slip activation, as well as precipitation hardening, the ternary Mg-1%Er-1%Zn alloy demonstrated a remarkable enhancement in the yield strength, strain hardening capability, and failure ductility, compared with the Mg-1%Er alloy.https://www.mdpi.com/2075-4701/11/1/171magnesium-rare earth alloyrecrystallizationselective grain growthtexture
collection DOAJ
language English
format Article
sources DOAJ
author Fatim-Zahra Mouhib
Fengyang Sheng
Ramandeep Mandia
Risheng Pei
Sandra Korte-Kerzel
Talal Al-Samman
spellingShingle Fatim-Zahra Mouhib
Fengyang Sheng
Ramandeep Mandia
Risheng Pei
Sandra Korte-Kerzel
Talal Al-Samman
Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
Metals
magnesium-rare earth alloy
recrystallization
selective grain growth
texture
author_facet Fatim-Zahra Mouhib
Fengyang Sheng
Ramandeep Mandia
Risheng Pei
Sandra Korte-Kerzel
Talal Al-Samman
author_sort Fatim-Zahra Mouhib
title Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
title_short Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
title_full Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
title_fullStr Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
title_full_unstemmed Texture Selection Mechanisms during Recrystallization and Grain Growth of a Magnesium-Erbium-Zinc Alloy
title_sort texture selection mechanisms during recrystallization and grain growth of a magnesium-erbium-zinc alloy
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2021-01-01
description Binary and ternary Mg-1%Er/Mg-1%Er-1%Zn alloys were rolled and subsequently subjected to various heat treatments to study texture selection during recrystallization and following grain growth. The results revealed favorable texture alterations in both alloys and the formation of a unique ±40° transvers direction (TD) recrystallization texture in the ternary alloy. While the binary alloy underwent a continuous alteration of its texture and grain size throughout recrystallization and grain growth, the ternary alloy showed a rapid rolling (RD) to transvers direction (TD) texture transition occurring during early stages of recrystallization. Targeted electron back scatter diffraction (EBSD) analysis of the recrystallized fraction unraveled a selective growth behavior of recrystallization nuclei with TD tilted orientations that is likely attributed to solute drag effect on the mobility of specific grain boundaries. Mg-1%Er-1%Zn additionally exhibited a stunning microstructural stability during grain growth annealing. This was attributed to a fine dispersion of dense nanosized particles in the matrix that impeded grain growth by Zener drag. The mechanical properties of both alloys were determined by uniaxial tensile tests combined with EBSD assisted slip trace analysis at 5% tensile strain to investigate non-basal slip behavior. Owing to synergic alloying effects on solid solution strengthening and slip activation, as well as precipitation hardening, the ternary Mg-1%Er-1%Zn alloy demonstrated a remarkable enhancement in the yield strength, strain hardening capability, and failure ductility, compared with the Mg-1%Er alloy.
topic magnesium-rare earth alloy
recrystallization
selective grain growth
texture
url https://www.mdpi.com/2075-4701/11/1/171
work_keys_str_mv AT fatimzahramouhib textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
AT fengyangsheng textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
AT ramandeepmandia textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
AT rishengpei textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
AT sandrakortekerzel textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
AT talalalsamman textureselectionmechanismsduringrecrystallizationandgraingrowthofamagnesiumerbiumzincalloy
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