Electron-beam additive manufacturing of product from Al-Mg alloy: Macrostructure and x-ray analysis

A. Vorontsov, V. Utyaganova, N. Shamarin
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引用次数: 0

Abstract

Aluminum-magnesium alloys are used in many industries. One of the disadvantages is the increased porosity and evaporation of magnesium during the printing process in additive technologies. There are also problems associated with the formation of oxides on the solidifying metal surface. Additive technology in a vacuum can provide oxide-free specimens during the printing process. In this work, the electron-beam wire additive technology produces a specimen in the shape of a wall of aluminum-magnesium alloy AA5083. The macrostructure and distribution of microhardness values of the specimen were studied. XRD patterns were analyzed to assess the homogeneity of the obtained specimen. XRD analysis was used to compare the lattice parameter and the resulting micro-distortions in different parts of the printed specimen.
铝镁合金电子束增材制造:宏观组织与x射线分析
铝镁合金用于许多工业。缺点之一是在增材技术的打印过程中增加了孔隙率和镁的蒸发。在凝固的金属表面上还存在与氧化物形成有关的问题。真空中的添加剂技术可以在打印过程中提供无氧化物的样品。在这项工作中,电子束线材添加剂技术产生了一个壁状的铝镁合金AA5083样品。对试样的宏观组织和显微硬度值分布进行了研究。通过分析XRD谱图来评估所得试样的均匀性。采用XRD分析比较了印刷试样不同部位的晶格参数和微变形。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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