Alloying Elements Effect on the Recrystallization Process in Magnesium-Rich Aluminum Alloy

This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum alloy composition, fine and coarse particle size and number, recrystallization characteristics and mechanical properties. The data obtained mad...

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Published inMaterials Vol. 15; no. 20; p. 7062
Main Authors Aryshenskii, Vladimir, Grechnikov, Fedor, Aryshenskii, Evgenii, Erisov, Yaroslav, Konovalov, Sergey, Tepterev, Maksim, Kuzin, Alexander
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 11.10.2022
MDPI
Subjects
Additives
Alloying effects
Alloying elements
Alloys
Aluminum
Aluminum alloys
Aluminum base alloys
Aluminum industry
Annealing
Casting
Chemical composition
Chemical elements
Cold
Copper
Deformation
Dispersions
Grain refinement
Grain size
heat treatment and surface treatment
Homogenization
Hot rolling
Intermetallic compounds
Laboratories
Magnesium
Manganese
Mechanical properties
microstructure-property characterization simulation and modeling
Nucleation
Nuclei
Recrystallization
Retarding
Shipbuilding industry
Specialty metals industry
Zirconium
Germany
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Abstract This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum alloy composition, fine and coarse particle size and number, recrystallization characteristics and mechanical properties. The data obtained made it possible to analyze change in the chemical composition, sizes of intermetallic compounds and dispersoids depending on alloying elements content. The effect of the chemical composition on the driving force and the number of recrystallization nuclei was studied. It was established that the addition of alloying elements leads to grain refinement, including through the activation of a particle-stimulated nucleation mechanism. As a result, with Mg increase from 4 to 5%, addition of 0.5% Mn and 0.5% Cu, the grain size decreased from 72 to 15 µm. Grain refinement occurred due to an increase in the number of particle-stimulated nuclei, the number of which at minimal alloying rose from 3.47 × 1011 to 81.2 × 1011 with the maximum concentration of Mg, Mn, Cu additives. The retarding force of recrystallization, which in the original alloy was 1.57 × 10−3 N/m2, increased to 5.49 × 10−3 N/m2 at maximum alloying. The influence of copper was especially noticeable, the introduction of 0.5% increasing the retarding force of recrystallization by 2.39 × 10−3 N/m2. This is due to the fact that copper has the most significant effect on the size and number of intermetallic particles. It was established that strength increase without ductility change occurs when magnesium, manganese and copper content increases.
AbstractList This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum alloy composition, fine and coarse particle size and number, recrystallization characteristics and mechanical properties. The data obtained made it possible to analyze change in the chemical composition, sizes of intermetallic compounds and dispersoids depending on alloying elements content. The effect of the chemical composition on the driving force and the number of recrystallization nuclei was studied. It was established that the addition of alloying elements leads to grain refinement, including through the activation of a particle-stimulated nucleation mechanism. As a result, with Mg increase from 4 to 5%, addition of 0.5% Mn and 0.5% Cu, the grain size decreased from 72 to 15 µm. Grain refinement occurred due to an increase in the number of particle-stimulated nuclei, the number of which at minimal alloying rose from 3.47 × 10 11 to 81.2 × 10 11 with the maximum concentration of Mg, Mn, Cu additives. The retarding force of recrystallization, which in the original alloy was 1.57 × 10 −3 N/m 2 , increased to 5.49 × 10 −3 N/m 2 at maximum alloying. The influence of copper was especially noticeable, the introduction of 0.5% increasing the retarding force of recrystallization by 2.39 × 10 −3 N/m 2 . This is due to the fact that copper has the most significant effect on the size and number of intermetallic particles. It was established that strength increase without ductility change occurs when magnesium, manganese and copper content increases.
This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum alloy composition, fine and coarse particle size and number, recrystallization characteristics and mechanical properties. The data obtained made it possible to analyze change in the chemical composition, sizes of intermetallic compounds and dispersoids depending on alloying elements content. The effect of the chemical composition on the driving force and the number of recrystallization nuclei was studied. It was established that the addition of alloying elements leads to grain refinement, including through the activation of a particle-stimulated nucleation mechanism. As a result, with Mg increase from 4 to 5%, addition of 0.5% Mn and 0.5% Cu, the grain size decreased from 72 to 15 µm. Grain refinement occurred due to an increase in the number of particle-stimulated nuclei, the number of which at minimal alloying rose from 3.47 × 1011 to 81.2 × 1011 with the maximum concentration of Mg, Mn, Cu additives. The retarding force of recrystallization, which in the original alloy was 1.57 × 10−3 N/m2, increased to 5.49 × 10−3 N/m2 at maximum alloying. The influence of copper was especially noticeable, the introduction of 0.5% increasing the retarding force of recrystallization by 2.39 × 10−3 N/m2. This is due to the fact that copper has the most significant effect on the size and number of intermetallic particles. It was established that strength increase without ductility change occurs when magnesium, manganese and copper content increases.
This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum alloy composition, fine and coarse particle size and number, recrystallization characteristics and mechanical properties. The data obtained made it possible to analyze change in the chemical composition, sizes of intermetallic compounds and dispersoids depending on alloying elements content. The effect of the chemical composition on the driving force and the number of recrystallization nuclei was studied. It was established that the addition of alloying elements leads to grain refinement, including through the activation of a particle-stimulated nucleation mechanism. As a result, with Mg increase from 4 to 5%, addition of 0.5% Mn and 0.5% Cu, the grain size decreased from 72 to 15 µm. Grain refinement occurred due to an increase in the number of particle-stimulated nuclei, the number of which at minimal alloying rose from 3.47 × 10[sup.11] to 81.2 × 10[sup.11] with the maximum concentration of Mg, Mn, Cu additives. The retarding force of recrystallization, which in the original alloy was 1.57 × 10[sup.−3] N/m[sup.2], increased to 5.49 × 10[sup.−3] N/m[sup.2] at maximum alloying. The influence of copper was especially noticeable, the introduction of 0.5% increasing the retarding force of recrystallization by 2.39 × 10[sup.−3] N/m[sup.2]. This is due to the fact that copper has the most significant effect on the size and number of intermetallic particles. It was established that strength increase without ductility change occurs when magnesium, manganese and copper content increases.
Audience Academic
Author Aryshenskii, Vladimir
Aryshenskii, Evgenii
Erisov, Yaroslav
Kuzin, Alexander
Tepterev, Maksim
Grechnikov, Fedor
Konovalov, Sergey
AuthorAffiliation 2 Departament of Mechanics and Engineering, Siberian State Industrial University, Kirova 42, 654007 Novokuznetsk, Russia
1 Institute of Aerospace Engineering, Samara National Research University, Moskovskoye Shosse 34, 443086 Samara, Russia
AuthorAffiliation_xml – name: 1 Institute of Aerospace Engineering, Samara National Research University, Moskovskoye Shosse 34, 443086 Samara, Russia
– name: 2 Departament of Mechanics and Engineering, Siberian State Industrial University, Kirova 42, 654007 Novokuznetsk, Russia
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  surname: Kuzin
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CitedBy_id crossref_primary_10_1016_j_jmrt_2023_02_037
crossref_primary_10_3390_ma17102321
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Snippet This paper addresses the study of the complex effect of alloying elements (magnesium, manganese, copper and zirconium) on changes in magnesium-rich aluminum...
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SubjectTerms Additives
Alloying effects
Alloying elements
Alloys
Aluminum
Aluminum alloys
Aluminum base alloys
Aluminum industry
Annealing
Casting
Chemical composition
Chemical elements
Cold
Copper
Deformation
Dispersions
Grain refinement
Grain size
heat treatment and surface treatment
Homogenization
Hot rolling
Intermetallic compounds
Laboratories
Magnesium
Manganese
Mechanical properties
microstructure-property characterization simulation and modeling
Nucleation
Nuclei
Recrystallization
Retarding
Shipbuilding industry
Specialty metals industry
Zirconium
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Title Alloying Elements Effect on the Recrystallization Process in Magnesium-Rich Aluminum Alloy
URI https://www.proquest.com/docview/2728499557
https://search.proquest.com/docview/2729516743
https://pubmed.ncbi.nlm.nih.gov/PMC9605260
https://doaj.org/article/ed82bfcc609347fc88c6e18ea13ce28a
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