Standard

Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting. / Белов, Николай ; Торгом, Акопян; Короткова, Нататья ; Мурашкин, Максим Юрьевич; Тимофеев, Виктор ; Фортуна, Анастасия .

в: Metals, Том 11, № 2, 236, 02.2021.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Белов, Н, Торгом, А, Короткова, Н, Мурашкин, МЮ, Тимофеев, В & Фортуна, А 2021, 'Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting', Metals, Том. 11, № 2, 236. https://doi.org/10.3390/met11020236

APA

Белов, Н., Торгом, А., Короткова, Н., Мурашкин, М. Ю., Тимофеев, В., & Фортуна, А. (2021). Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting. Metals, 11(2), [236]. https://doi.org/10.3390/met11020236

Vancouver

Белов Н, Торгом А, Короткова Н, Мурашкин МЮ, Тимофеев В, Фортуна А. Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting. Metals. 2021 Февр.;11(2). 236. https://doi.org/10.3390/met11020236

Author

Белов, Николай ; Торгом, Акопян ; Короткова, Нататья ; Мурашкин, Максим Юрьевич ; Тимофеев, Виктор ; Фортуна, Анастасия . / Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting. в: Metals. 2021 ; Том 11, № 2.

BibTeX

@article{73dc3240d3bf419cb9e08d3d4acf74dc,
title = "Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting",
abstract = "Experimental aluminum alloy containing 0.8% Ca, 0.5% Zr, 0.5% Fe and 0.25% Si (wt.%), in the form of a long-length rod 12 mm in diameter was manufactured using an electromagnetic casting (EMC) technique. The extremely high cooling rate during alloy solidification (104 K/s) caused the formation of a favorable microstructure in the ingot characterized by a small size of the dendritic cells, fine eutectic particles of Ca-containing phases and full dissolution of Zr in Al the solid solution. Due to the microstructure obtained the ingots possess high manufacturability during cold forming (both drawing and rolling). Analysis of the electrical conductivity (EC) and microhardness of the cold rolled strip and cold drawn wire revealed that their temperature dependences are very close. The best combination of hardness and EC in the cold rolled strip was reached after annealing at 450 C. TEM study of structure evolution revealed that the annealing mode used leads to the formation of L12 type Al3Zr phase precipitates with an average diameter of 10 nm and a high number density. Experimental wire alloy has the best combination of ultimate tensile strength (UTS), electrical conductivity (EC) (200 MPa and 54.8% IACS, respectively) and thermal stability (up to 450 C) as compared with alloys based on the Al–Zr and Al– rare-earth metal (REM) systems. In addition, it is shown that the presence of calcium in the model alloy increases the electrical conductivity after coldforming operations (both drawing and rolling)/",
keywords = "Aluminum–zirconium wire alloys, Drawing, Electrical conductivity (EC), Electromagnetic casting (EMC), Nanoparticles, Phase composition, electrical conductivity (EC), zirconium wire alloys, aluminum&#8211, electromagnetic casting (EMC), nanoparticles, drawing, phase composition",
author = "Николай Белов and Акопян Торгом and Нататья Короткова and Мурашкин, {Максим Юрьевич} and Виктор Тимофеев and Анастасия Фортуна",
note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",
year = "2021",
month = feb,
doi = "10.3390/met11020236",
language = "English",
volume = "11",
journal = "Metals",
issn = "2075-4701",
publisher = "MDPI AG",
number = "2",

}

RIS

TY - JOUR

T1 - Structure and Properties of Ca and Zr Containing Heat Resistant Wire Aluminum Alloy Manufactured by Electromagnetic Casting

AU - Белов, Николай

AU - Торгом, Акопян

AU - Короткова, Нататья

AU - Мурашкин, Максим Юрьевич

AU - Тимофеев, Виктор

AU - Фортуна, Анастасия

N1 - Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/2

Y1 - 2021/2

N2 - Experimental aluminum alloy containing 0.8% Ca, 0.5% Zr, 0.5% Fe and 0.25% Si (wt.%), in the form of a long-length rod 12 mm in diameter was manufactured using an electromagnetic casting (EMC) technique. The extremely high cooling rate during alloy solidification (104 K/s) caused the formation of a favorable microstructure in the ingot characterized by a small size of the dendritic cells, fine eutectic particles of Ca-containing phases and full dissolution of Zr in Al the solid solution. Due to the microstructure obtained the ingots possess high manufacturability during cold forming (both drawing and rolling). Analysis of the electrical conductivity (EC) and microhardness of the cold rolled strip and cold drawn wire revealed that their temperature dependences are very close. The best combination of hardness and EC in the cold rolled strip was reached after annealing at 450 C. TEM study of structure evolution revealed that the annealing mode used leads to the formation of L12 type Al3Zr phase precipitates with an average diameter of 10 nm and a high number density. Experimental wire alloy has the best combination of ultimate tensile strength (UTS), electrical conductivity (EC) (200 MPa and 54.8% IACS, respectively) and thermal stability (up to 450 C) as compared with alloys based on the Al–Zr and Al– rare-earth metal (REM) systems. In addition, it is shown that the presence of calcium in the model alloy increases the electrical conductivity after coldforming operations (both drawing and rolling)/

AB - Experimental aluminum alloy containing 0.8% Ca, 0.5% Zr, 0.5% Fe and 0.25% Si (wt.%), in the form of a long-length rod 12 mm in diameter was manufactured using an electromagnetic casting (EMC) technique. The extremely high cooling rate during alloy solidification (104 K/s) caused the formation of a favorable microstructure in the ingot characterized by a small size of the dendritic cells, fine eutectic particles of Ca-containing phases and full dissolution of Zr in Al the solid solution. Due to the microstructure obtained the ingots possess high manufacturability during cold forming (both drawing and rolling). Analysis of the electrical conductivity (EC) and microhardness of the cold rolled strip and cold drawn wire revealed that their temperature dependences are very close. The best combination of hardness and EC in the cold rolled strip was reached after annealing at 450 C. TEM study of structure evolution revealed that the annealing mode used leads to the formation of L12 type Al3Zr phase precipitates with an average diameter of 10 nm and a high number density. Experimental wire alloy has the best combination of ultimate tensile strength (UTS), electrical conductivity (EC) (200 MPa and 54.8% IACS, respectively) and thermal stability (up to 450 C) as compared with alloys based on the Al–Zr and Al– rare-earth metal (REM) systems. In addition, it is shown that the presence of calcium in the model alloy increases the electrical conductivity after coldforming operations (both drawing and rolling)/

KW - Aluminum–zirconium wire alloys

KW - Drawing

KW - Electrical conductivity (EC)

KW - Electromagnetic casting (EMC)

KW - Nanoparticles

KW - Phase composition

KW - electrical conductivity (EC)

KW - zirconium wire alloys

KW - aluminum&#8211

KW - electromagnetic casting (EMC)

KW - nanoparticles

KW - drawing

KW - phase composition

UR - http://www.scopus.com/inward/record.url?scp=85100307827&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/4a76f233-946e-323e-90af-f63b6e054a67/

U2 - 10.3390/met11020236

DO - 10.3390/met11020236

M3 - Article

VL - 11

JO - Metals

JF - Metals

SN - 2075-4701

IS - 2

M1 - 236

ER -

ID: 75508567