abstract

• A series of Al-4Cu and Al-2Cu-2Mg wt.%25 alloys were synthesized through casting and subjected to plastic deformation to evaluate the interaction and contribution of the different strengthening mechanisms since the experimental Vickers microhardness test. The plastic deformation was performed by cold-rolling to achieve a 50%25 thickness reduction. The results show that solid solution strengthening is the main mechanism responsible for the total hardness enhancement of the alloys, and the Mg presents a higher hardening capacity for the solid solution strengthening than the Cu. For Al-4Cu alloy, competition between the annihilation of dislocations and the formation of precipitates generates an apparent low response precipitation hardening. Nevertheless, for Al-2Cu-2Mg alloy, the Mg addition allowed retard the dislocation annihilation induced an apparent higher response precipitation hardening.

authors

• Estrada-Guel I.
• Garay-Reyes C.G.
• González S.
• Guía-Tello J.C.
• Martínez-Sánchez R.
Mendoza-Duarte J.M.
Ruiz-Esparza-Rodríguez M.A.
... more

publication date

• 2024-01-01

funding provided via

• Consejo Nacional de Humanidades, Ciencias y Tecnologías, Conahcyt, (A1-S-32226)  Grant

published in

• Canadian Metallurgical Quarterly  Journal

keywords

• Al-Cu; Al-Cu-Mg; plastic deformation; Strengthening mechanisms Age hardening; Aluminum castings; Aluminum copper alloys; Brinell Hardness; Magnesium castings; Rockwell hardness; Tin alloys; Al-cu; Al-Cu-Mg; Hardness enhancement; Solid solution strengthening; Strengthening mechanisms; Synthesised; T6 treatment; Thickness reduction; Total hardness; Vickers microhardness tests; Magnesium alloys

Digital Object Identifier (DOI)

• 10.1080/00084433.2024.2393982

PubMed ID

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