Investigation of inhomogeneity of mechanical properties of Al-Mg alloy printed by electron-beam method

PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019 Pub Date : 2019-11-19 DOI:10.1063/1.5132190

N. Shamarin, V. Utyaganova, V. Beloborodov

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Abstract

Products from aluminum-magnesium alloy were produced by electron-beam additive technology. In this work, the microstructure and mechanical properties of the entire height of the grown product were investigated. The study of the microstructure showed that the grown sample has inhomogeneities and microdefects. At the bottom area a large number of β-phase intermetallic compounds of the MgAl system were appearing and at the top area the amount of intermetallic compounds was noticeably less, but a large amount of pores was observed. Mechanical properties were determined by compression testing. The results of mechanical tests indicate that the highest strength of the material is observed in samples cut out near the substrate.Products from aluminum-magnesium alloy were produced by electron-beam additive technology. In this work, the microstructure and mechanical properties of the entire height of the grown product were investigated. The study of the microstructure showed that the grown sample has inhomogeneities and microdefects. At the bottom area a large number of β-phase intermetallic compounds of the MgAl system were appearing and at the top area the amount of intermetallic compounds was noticeably less, but a large amount of pores was observed. Mechanical properties were determined by compression testing. The results of mechanical tests indicate that the highest strength of the material is observed in samples cut out near the substrate.

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电子束法印刷铝镁合金力学性能的不均匀性研究

采用电子束增材技术制备铝镁合金产品。在本工作中，研究了生长产物的整个高度的显微组织和力学性能。微观结构研究表明，生长后的样品具有不均匀性和微缺陷。底部区域出现了大量MgAl体系的β相金属间化合物，顶部区域的金属间化合物数量明显较少，但观察到大量的孔隙。通过压缩试验确定了材料的力学性能。力学试验结果表明，在基体附近切割的样品中观察到材料的最高强度。采用电子束增材技术制备铝镁合金产品。在本工作中，研究了生长产物的整个高度的显微组织和力学性能。微观结构研究表明，生长后的样品具有不均匀性和微缺陷。底部区域出现了大量MgAl体系的β相金属间化合物，顶部区域的金属间化合物数量明显较少，但观察到大量的孔隙。通过压缩试验确定了材料的力学性能。力学试验结果表明，在基体附近切割的样品中观察到材料的最高强度。

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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019

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