Structure of the metal matrix Mo-based alloy produced by the EBM method

IF 0.8 4区 材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING
I. A. Bogachev, D. I. Sukhov, I. Yu. Efimochkin, P. E. Kuznetsova
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Abstract

We perform structural investigations of a molybdenum-based cermet material obtained by the method of selective electron-beam melting. The initial material is an alloy of the Mo–Si–B system alloyed with a reinforcing component in the form of an Al2O3–Y2O3–ZrO2 oxide composition. It is shown that, in the process of selective electron-beam melting of spheroidized cermet particles of the alloy of Mo–Si–B system in the optimal technological mode of synthesis, we observe melting both of the molybdenum matrix of the alloy and of the reinforcing particles contained in the original granules. As a result, in the course of crystallization of the melt with formation of a cellular structure on the boundaries of cells, we observe the appearance of finely divided oxide particles 1–5 μm in size, which are also composite particles. On the boundaries of cells and inside oxide inclusions, we reveal the elevated content of silicon as compared to that in the body of cells, which enables us to conclude that the processes of diffusion of this element occur in the analyzed material. At the same time, in the vicinity of the contour of samples of synthesized material, we detect the formation of a structure, which inherits, to a certain extent, the structure of the initial spheroidized granules.

Abstract Image

用 EBM 方法生产的金属基 Mo 基合金的结构
我们对通过选择性电子束熔炼法获得的钼基金属陶瓷材料进行了结构研究。初始材料是一种钼-硅-B 系合金,合金中含有以 Al2O3-Y2O3-ZrO2 氧化物成分形式存在的增强成分。实验表明,在最佳合成技术模式下对 Mo-Si-B 系合金的球化金属陶瓷颗粒进行选择性电子束熔化的过程中,我们观察到合金的钼基体和原始颗粒中的强化颗粒都发生了熔化。因此,在熔体结晶并在晶胞边界形成晶胞结构的过程中,我们观察到出现了大小为 1-5 μm 的细小氧化物颗粒,它们也是复合颗粒。在晶胞边界和氧化物包裹体内部,我们发现硅的含量比晶胞体内的硅含量高,这使我们能够得出结论,分析材料中存在硅元素的扩散过程。同时,在合成材料样品的轮廓附近,我们发现了一种结构的形成,这种结构在一定程度上继承了最初的球形颗粒结构。
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来源期刊
Metallurgist
Metallurgist 工程技术-冶金工程
CiteScore
1.50
自引率
44.40%
发文量
151
审稿时长
4-8 weeks
期刊介绍: Metallurgist is the leading Russian journal in metallurgy. Publication started in 1956. Basic topics covered include: State of the art and development of enterprises in ferrous and nonferrous metallurgy and mining; Metallurgy of ferrous, nonferrous, rare, and precious metals; Metallurgical equipment; Automation and control; Protection of labor; Protection of the environment; Resources and energy saving; Quality and certification; History of metallurgy; Inventions (patents).
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