Effect of aging of Al–Mg–Si/rare earth alloys: Microstructure and hardness-Reference-Cited by-同舟云学术

Effect of aging of Al–Mg–Si/rare earth alloys: Microstructure and hardness

Published:2024-06-13 Issue: Volume: Page:
ISSN:2062-0810
Container-title:International Review of Applied Sciences and Engineering
language:
Short-container-title:IRASE

Author:

Macías Nicolas¹,Amu Maribel²,Aguilar Yesid³,Franco Edgar⁴^ORCID

Affiliation:

1. Graduate Campus of Aalen University, Aalen, 73430, Germany

2. New Technologies, Work and Management Research Group, Faculty of Engineering, University of San Buenaventura, Cali, 760031, Colombia

3. Tribology, Polymers, Powder Metallurgy and Solid Waste Transformation Research Group, Faculty of Engineering, University of Valle, Cali, 760032, Colombia

4. Architecture, Urbanism, and Design Research Group, Faculty of Architecture, Art and Design, University of San Buenaventura, Cali, 760031, Colombia

Abstract

AbstractThermomechanical treatments and variations in chemical composition during the production of these alloys allow their properties to be adjusted as necessary. In the present research, the influence of chemical modification was analyzed by adding a combination of two rare earth elements (lanthanum and cerium) and performing a pretreatment before natural and artificial aging. With this, it was observed that said chemical modification led to an increase in hardness after artificial aging and specific suppression of the hardening speed at room temperature, combined with a pretreatment process to improve the density of the nucleation site and take advantage of the possible vacancy capture effect. Furthermore, microstructural changes were observed in the study alloys by scanning electron microscopy. The above allows the design of alloy production processes according to the requirements of each application.

Publisher

Akademiai Kiado Zrt.

Link

https://akjournals.com/downloadpdf/journals/1848/aop/article-10.1556-1848.2024.00744/article-10.1556-1848.2024.00744.xml

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