铝镁硅稀土合金的时效效应：显微结构和硬度

Q2 Engineering

International Review of Applied Sciences and Engineering Pub Date : 2024-06-13 DOI:10.1556/1848.2024.00744

Nicolas Macías, Maribel Amú, Yesid Aguilar, Edgar Franco

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引用次数: 0

摘要

在这些合金的生产过程中，通过热机械处理和化学成分的变化，可以对其性能进行必要的调整。在本研究中，通过添加两种稀土元素（镧和铈）的组合，并在自然老化和人工老化前进行预处理，分析了化学改性的影响。结果表明，上述化学改性可提高人工老化后的硬度，并抑制室温下的硬化速度，同时通过预处理过程提高成核点的密度并利用可能的空位捕获效应。此外，还通过扫描电子显微镜观察了研究合金的微观结构变化。通过上述研究，可以根据不同应用的要求设计合金生产工艺。

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

Thermomechanical 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.

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来源期刊

International Review of Applied Sciences and Engineering Materials Science-Materials Science (miscellaneous)

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

46 weeks

期刊介绍： International Review of Applied Sciences and Engineering is a peer reviewed journal. It offers a comprehensive range of articles on all aspects of engineering and applied sciences. It provides an international and interdisciplinary platform for the exchange of ideas between engineers, researchers and scholars within the academy and industry. It covers a wide range of application areas including architecture, building services and energetics, civil engineering, electrical engineering and mechatronics, environmental engineering, mechanical engineering, material sciences, applied informatics and management sciences. The aim of the Journal is to provide a location for reporting original research results having international focus with multidisciplinary content. The published papers provide solely new basic information for designers, scholars and developers working in the mentioned fields. The papers reflect the broad categories of interest in: optimisation, simulation, modelling, control techniques, monitoring, and development of new analysis methods, equipment and system conception.