Szczegóły publikacji

Opis bibliograficzny

High-strength and high-conductivity Cu-0.7Mg-0.1Ca alloy fabricated via heat treatment and severe plastic deformation — Legura Cu-0,7Mg-0,1Ca visoke čvrstoće i visoke provodljivosti dobijena termičkom obradom i intenzivnom plastičnom deformacijom / A. Kalhor, K. Rodak, H. Myalska-Głowacka, B. Chmiela, K. Kuglarz, I. Schindler, K. Radwański, M. Kampik // Journal of Mining and Metallurgy . Section: B, Metallurgy ; ISSN 1450-5339. — 2025 — vol. 61 iss. 1, s. 43-58. — Bibliogr. s. 55-57, Abstr., Apstr.

Autorzy (8)

Kalhor A.
Rodak K.
Myalska-Głowacka Hanna
Chmiela B.
AGHKuglarz Karol
Schindler I.
Radwański Kazimierz
Kampik M.

Słowa kluczowe

simulation four-wire Kelvin resistance measurement tensile properties MaxStrain deformation microstructure annealing

Dane bibliometryczne

ID BaDAP	166706
Data dodania do BaDAP	2026-03-27
Tekst źródłowy	URL
DOI	10.2298/JMMB241017004K
Rok publikacji	2025
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	Journal of Mining and Metallurgy, Section: B, Metallurgy

Abstract

In this research, the effect of annealing in combination with severe plastic deformation (SPD) by the MaxStrain component of the Gleeble thermo-mechanical testing device on the microstructural characteristics, tensile behavior, and electrical conductivity of a Cu-0.7Mg-0.1Ca (wt%) alloy was investigated. The as-cast material was subjected to two treatments: annealing at 923 K for 15 min, followed by cooling in air, and annealing at 923 K for 75 min, followed by quenching in agitated water, which resulted in irregular and partially spheroidized Cu5Ca particles. Subsequent MaxStrain deformation resulted in a remarkable grain refinement by dynamic recrystallization (DRX), in which the annealed and quenched sample exhibited a higher DRX fraction than the annealed and air-cooled sample. As a result, the annealed and quenched samples showed a better synergy between strength and ductility, while these improvements were accompanied by only ~1% reduction in electrical conductivity. Accordingly, the present work demonstrated that annealing and subsequent SPD processing is an effective method for processing high-strength and high-conductivity (HSHC) copper alloys.

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