Standard

Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing. / Medvedev, A. E.; Zhukova, O. O.; Kazykhanov, Vil U.; Shaikhulova, A. F.; Motkov, M.M.; Timofeev, V. N.; Еникеев, Нариман Айратович; Мурашкин, Максим Юрьевич.

в: Physics of Metals and Metallography, 20.10.2024.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Medvedev, AE, Zhukova, OO, Kazykhanov, VU, Shaikhulova, AF, Motkov, MM, Timofeev, VN, Еникеев, НА & Мурашкин, МЮ 2024, 'Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing', Physics of Metals and Metallography. https://doi.org/10.1134/s0031918x23602706

APA

Medvedev, A. E., Zhukova, O. O., Kazykhanov, V. U., Shaikhulova, A. F., Motkov, M. M., Timofeev, V. N., Еникеев, Н. А., & Мурашкин, М. Ю. (2024). Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing. Physics of Metals and Metallography. https://doi.org/10.1134/s0031918x23602706

Vancouver

Medvedev AE, Zhukova OO, Kazykhanov VU, Shaikhulova AF, Motkov MM, Timofeev VN и пр. Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing. Physics of Metals and Metallography. 2024 Окт. 20. https://doi.org/10.1134/s0031918x23602706

Author

Medvedev, A. E. ; Zhukova, O. O. ; Kazykhanov, Vil U. ; Shaikhulova, A. F. ; Motkov, M.M. ; Timofeev, V. N. ; Еникеев, Нариман Айратович ; Мурашкин, Максим Юрьевич. / Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing. в: Physics of Metals and Metallography. 2024.

BibTeX

@article{318f5b3cc74b451098de3953851a1805,
title = "Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing",
abstract = "Abstract: The effect of alloying with 0.3 wt % of Cu on the microstructure and properties of an Al–0.5 wt % Fe alloy, obtained by continuous casting in an electromagnetic crystallizer and subjected to deformation treatment by equal-channel angular pressing and subsequent cold rolling, is studied. The implementation of two-stage deformation processing ensured the formation of a homogeneous ultrafine-grained structure in the alloy, as well as the fragmenting of the second phase intermetallic particles, which made it possible to achieve an ultimate tensile strength and electrical conductivity of 309 MPa and 55.9% IACS (International Annealed Copper Standard), respectively. It has been shown that the refinement of the grain structure and intermetallic particles caused by deformation treatment also ensures the preservation of a high level of strength of the material after annealing for 1 hour at a temperature of 230°C. Based on a generalization of the results, including those obtained in previous studies, the role of Cu alloying in achieving increased strength and thermal stability of the Al–Fe alloy with an ultrafine-grained structure was determined. The possible area of using ultrafine-grained alloys of the Al‒Fe‒Cu system as promising conductor materials is discussed.",
keywords = "Al‒Fe alloys, cold rolling, electrical conductivity, electromagnetic crystallizer, equal-channel angular pressing, intermetallic particles, mechanical properties, thermal stability, ultrafine-grained structure",
author = "Medvedev, {A. E.} and Zhukova, {O. O.} and Kazykhanov, {Vil U.} and Shaikhulova, {A. F.} and M.M. Motkov and Timofeev, {V. N.} and Еникеев, {Нариман Айратович} and Мурашкин, {Максим Юрьевич}",
year = "2024",
month = oct,
day = "20",
doi = "10.1134/s0031918x23602706",
language = "English",
journal = "Physics of Metals and Metallography",
issn = "0031-918X",
publisher = "МАИК {"}Наука/Интерпериодика{"}",

}

RIS

TY - JOUR

T1 - Influence of Cu Alloying on the Microstructure and Properties of the Al–Fe Alloy, Produced by Electromagnetic Casting and Subjected to Equal-Channel Angular Pressing

AU - Medvedev, A. E.

AU - Zhukova, O. O.

AU - Kazykhanov, Vil U.

AU - Shaikhulova, A. F.

AU - Motkov, M.M.

AU - Timofeev, V. N.

AU - Еникеев, Нариман Айратович

AU - Мурашкин, Максим Юрьевич

PY - 2024/10/20

Y1 - 2024/10/20

N2 - Abstract: The effect of alloying with 0.3 wt % of Cu on the microstructure and properties of an Al–0.5 wt % Fe alloy, obtained by continuous casting in an electromagnetic crystallizer and subjected to deformation treatment by equal-channel angular pressing and subsequent cold rolling, is studied. The implementation of two-stage deformation processing ensured the formation of a homogeneous ultrafine-grained structure in the alloy, as well as the fragmenting of the second phase intermetallic particles, which made it possible to achieve an ultimate tensile strength and electrical conductivity of 309 MPa and 55.9% IACS (International Annealed Copper Standard), respectively. It has been shown that the refinement of the grain structure and intermetallic particles caused by deformation treatment also ensures the preservation of a high level of strength of the material after annealing for 1 hour at a temperature of 230°C. Based on a generalization of the results, including those obtained in previous studies, the role of Cu alloying in achieving increased strength and thermal stability of the Al–Fe alloy with an ultrafine-grained structure was determined. The possible area of using ultrafine-grained alloys of the Al‒Fe‒Cu system as promising conductor materials is discussed.

AB - Abstract: The effect of alloying with 0.3 wt % of Cu on the microstructure and properties of an Al–0.5 wt % Fe alloy, obtained by continuous casting in an electromagnetic crystallizer and subjected to deformation treatment by equal-channel angular pressing and subsequent cold rolling, is studied. The implementation of two-stage deformation processing ensured the formation of a homogeneous ultrafine-grained structure in the alloy, as well as the fragmenting of the second phase intermetallic particles, which made it possible to achieve an ultimate tensile strength and electrical conductivity of 309 MPa and 55.9% IACS (International Annealed Copper Standard), respectively. It has been shown that the refinement of the grain structure and intermetallic particles caused by deformation treatment also ensures the preservation of a high level of strength of the material after annealing for 1 hour at a temperature of 230°C. Based on a generalization of the results, including those obtained in previous studies, the role of Cu alloying in achieving increased strength and thermal stability of the Al–Fe alloy with an ultrafine-grained structure was determined. The possible area of using ultrafine-grained alloys of the Al‒Fe‒Cu system as promising conductor materials is discussed.

KW - Al‒Fe alloys

KW - cold rolling

KW - electrical conductivity

KW - electromagnetic crystallizer

KW - equal-channel angular pressing

KW - intermetallic particles

KW - mechanical properties

KW - thermal stability

KW - ultrafine-grained structure

UR - https://www.mendeley.com/catalogue/296a1175-ca5d-339d-a56c-42fb053c6055/

U2 - 10.1134/s0031918x23602706

DO - 10.1134/s0031918x23602706

M3 - Article

JO - Physics of Metals and Metallography

JF - Physics of Metals and Metallography

SN - 0031-918X

ER -

ID: 126436065