Improved Mechanical Properties of Mg–Ni–Y Alloys via Thermomechanical Processing

Parastoo Mahmoud Kalayeh; Mehdi Malekan; Hamed Mirzadeh; Milad Roostaei; Irmgard Weißensteiner; Ahmad Bahmani; Massoud Emamy; Reza Mahmudi

doi:10.1007/s12540-025-02100-9

Improved Mechanical Properties of Mg–Ni–Y Alloys via Thermomechanical Processing

Parastoo Mahmoud Kalayeh
, Mehdi Malekan
, Hamed Mirzadeh
, Milad Roostaei
, Irmgard Weißensteiner
, Ahmad Bahmani
, Massoud Emamy
, Reza Mahmudi

Lehrstuhl für Nichteisenmetallurgie (520)

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Begutachtung

Abstract

The microstructure and mechanical properties of hot extruded Mg99.5−xNi0.5Yx alloys containing 0, 0.5, 1, and 2 at% yttrium were systematically investigated. It was found that by addition of Y, the amount of the long period stacking ordered structures as the main strengthening phase increased, which were subsequently deformed by the kinking mechanism during the extrusion process. Dynamic recrystallization (DRX) was responsible for grain refinement, where the grain size was determined by the competition of particle stimulated nucleation (PSN) mechanism of the LPSO phase and the increase of the homologous temperature during hot deformation by Y addition. Accordingly, the finest DRX grain size of 2.5 μm was achieved at 1 at% Y addition. At 2 at% Y, some deformed grains formed in the microstructure due to incomplete DRX. Both tensile and shear punch testing revealed that the Mg98.5Ni0.5Y1 alloy exhibited the optimum mechanical properties and strength–ductility balance, which was attributed to the strengthening effect of the LPSO phase, grain refinement, and weakened basal texture. The tensile and shear behaviors were also correlated, revealing a dependency consistent with the von-Mises yield criterion.

Originalsprache	Englisch
Seitenumfang	14
Fachzeitschrift	Metals and materials international
Ausgabenummer	??? Stand: 24. März 2026
DOIs	https://doi.org/10.1007/s12540-025-02100-9
Publikationsstatus	Elektronische Veröffentlichung vor Drucklegung. - 18 Nov. 2025

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Publisher Copyright:
© The Author(s) under exclusive licence to The Korean Institute of Metals and Materials 2025.

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title = "Improved Mechanical Properties of Mg–Ni–Y Alloys via Thermomechanical Processing",

abstract = "The microstructure and mechanical properties of hot extruded Mg99.5−xNi0.5Yx alloys containing 0, 0.5, 1, and 2 at\% yttrium were systematically investigated. It was found that by addition of Y, the amount of the long period stacking ordered structures as the main strengthening phase increased, which were subsequently deformed by the kinking mechanism during the extrusion process. Dynamic recrystallization (DRX) was responsible for grain refinement, where the grain size was determined by the competition of particle stimulated nucleation (PSN) mechanism of the LPSO phase and the increase of the homologous temperature during hot deformation by Y addition. Accordingly, the finest DRX grain size of 2.5 μm was achieved at 1 at\% Y addition. At 2 at\% Y, some deformed grains formed in the microstructure due to incomplete DRX. Both tensile and shear punch testing revealed that the Mg98.5Ni0.5Y1 alloy exhibited the optimum mechanical properties and strength–ductility balance, which was attributed to the strengthening effect of the LPSO phase, grain refinement, and weakened basal texture. The tensile and shear behaviors were also correlated, revealing a dependency consistent with the von-Mises yield criterion.",

keywords = "Crystallographic texture, Dynamic recrystallization, Hot deformation, LPSO-containing Mg alloys, Shear punch testing, Tensile testing",

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T1 - Improved Mechanical Properties of Mg–Ni–Y Alloys via Thermomechanical Processing

AU - Kalayeh, Parastoo Mahmoud

AU - Malekan, Mehdi

AU - Mirzadeh, Hamed

AU - Roostaei, Milad

AU - Weißensteiner, Irmgard

AU - Bahmani, Ahmad

AU - Emamy, Massoud

AU - Mahmudi, Reza

N1 - Publisher Copyright: © The Author(s) under exclusive licence to The Korean Institute of Metals and Materials 2025.

PY - 2025/11/18

Y1 - 2025/11/18

N2 - The microstructure and mechanical properties of hot extruded Mg99.5−xNi0.5Yx alloys containing 0, 0.5, 1, and 2 at% yttrium were systematically investigated. It was found that by addition of Y, the amount of the long period stacking ordered structures as the main strengthening phase increased, which were subsequently deformed by the kinking mechanism during the extrusion process. Dynamic recrystallization (DRX) was responsible for grain refinement, where the grain size was determined by the competition of particle stimulated nucleation (PSN) mechanism of the LPSO phase and the increase of the homologous temperature during hot deformation by Y addition. Accordingly, the finest DRX grain size of 2.5 μm was achieved at 1 at% Y addition. At 2 at% Y, some deformed grains formed in the microstructure due to incomplete DRX. Both tensile and shear punch testing revealed that the Mg98.5Ni0.5Y1 alloy exhibited the optimum mechanical properties and strength–ductility balance, which was attributed to the strengthening effect of the LPSO phase, grain refinement, and weakened basal texture. The tensile and shear behaviors were also correlated, revealing a dependency consistent with the von-Mises yield criterion.

AB - The microstructure and mechanical properties of hot extruded Mg99.5−xNi0.5Yx alloys containing 0, 0.5, 1, and 2 at% yttrium were systematically investigated. It was found that by addition of Y, the amount of the long period stacking ordered structures as the main strengthening phase increased, which were subsequently deformed by the kinking mechanism during the extrusion process. Dynamic recrystallization (DRX) was responsible for grain refinement, where the grain size was determined by the competition of particle stimulated nucleation (PSN) mechanism of the LPSO phase and the increase of the homologous temperature during hot deformation by Y addition. Accordingly, the finest DRX grain size of 2.5 μm was achieved at 1 at% Y addition. At 2 at% Y, some deformed grains formed in the microstructure due to incomplete DRX. Both tensile and shear punch testing revealed that the Mg98.5Ni0.5Y1 alloy exhibited the optimum mechanical properties and strength–ductility balance, which was attributed to the strengthening effect of the LPSO phase, grain refinement, and weakened basal texture. The tensile and shear behaviors were also correlated, revealing a dependency consistent with the von-Mises yield criterion.

KW - Crystallographic texture

KW - Dynamic recrystallization

KW - Hot deformation

KW - LPSO-containing Mg alloys

KW - Shear punch testing

KW - Tensile testing

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