Kamila Limanówka, Sonia Boczkal, Monika Mitka, Elżbieta Szymańska, Joanna Hrabia-Wiśnios, Dawid Kapinos, Bogusław Augustyn, Renata Skrzyńska, Łukasz Grzebinoga, Paweł Czaja, Anna Góral, Tomasz Czeppe
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引用次数: 0
摘要
铝镁合金的特点是永久固溶硬化,还可以进行加工硬化。在塑性变形过程中,镁含量高于标准的铝镁合金的高机械性能会随着时间的推移而降低。添加次要合金元素(如 Er 或 Zr)是提高铝镁合金机械性能耐久性和增加其强度的另一种方法,因为这样可以形成致密均匀分布的分散体。本文研究了镁含量高于标准(7 wt.%)、含有 Zr 和 Er 微合金元素的铝镁合金及其对微观结构和机械性能耐久性的影响。AlMg7 合金铸锭的特点是表面光滑无裂纹。静态压缩试验中的塑性变形过程使所有变形合金的布氏硬度相对于铸造时提高了约 60 HBW。研究表明,添加 Er 和 Zr 能明显改善退火后 Al-Mg 的机械性能和耐久性。添加 Er 或 Zr 能轻微抑制退火后布氏硬度的下降,但不能抑制这种下降。
The Influence of Er and Zr on the Microstructure and Durability of the Mechanical Properties of an Al-Mg Alloy Containing 7 wt.% of Mg.
Al-Mg alloys are characterized by permanent solid solution hardening and can additionally be work-hardened. The high mechanical properties of Al-Mg alloys with above-standard Mg content obtained after plastic deformation processes decrease over time. The addition of minor alloying elements like Er or Zr is an alternative method to improve the durability of mechanical properties and increase the strength of Al-Mg alloys due to densely and evenly distributed dispersoids being formed. In this paper, Al-Mg alloys with above-standard Mg content (7 wt.%) and Zr and Er micro-alloying elements and their influence on the microstructure and durability of the mechanical properties were examined. The cast ingots of AlMg7 alloys were characterized by a smooth surface without cracks. The plastic deformation process in a static compression test resulted in an about 60 HBW increase in the Brinell hardness of all the deformed alloys relative to casting. It was revealed that the addition of Er and Zr significantly improved the mechanical properties and durability of the mechanical properties of the Al-Mg after annealing. The addition of Er or Zr slightly restrained the decrease in the Brinell hardness after annealing but did not inhibit it.
期刊介绍:
Materials (ISSN 1996-1944) is an open access journal of related scientific research and technology development. It publishes reviews, regular research papers (articles) and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Materials provides a forum for publishing papers which advance the in-depth understanding of the relationship between the structure, the properties or the functions of all kinds of materials. Chemical syntheses, chemical structures and mechanical, chemical, electronic, magnetic and optical properties and various applications will be considered.
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