粉末氢化物法制备掺铌γ-TiAl材料的相组成、结构和力学性能

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS Powder Metallurgy and Metal Ceramics Pub Date : 2023-06-12 DOI:10.1007/s11106-023-00346-9
I. I. Ivanova, Yu. M. Podrezov, V. M. Klymenko, M. V. Karpets, V. I. Danilenko, V. A. Barabash, N. A. Krylova
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引用次数: 0

摘要

研究了铌对γ -TiAl合金组织、相组成和力学性能的影响。γ-TiAl合金在固溶体中掺杂铌;合金中铌的含量从2%到10%不等。铌作为Al3Nb金属间化合物被引入,允许通过高能研磨产生超细粉末混合物。采用TiH2 + Al3Ti + Al3Nb混合粉末制备γ -TiAl合金。该方法最大限度地减少了Ti-Al体系中的Kirkendall-Frenkel效应,并防止了烧结过程中额外孔隙率的增加。烧结材料中只存在TiAl相和Ti3Al相,表明铌已经溶解在现有相中。为了在合金中达到所需的相组成,必须增加铝的含量,以补偿烧结过程中蒸发造成的部分损失。由于α2相含量较多,铝含量较低的合金在室温和高温下均表现出较高的强度和较低的塑性。铌的掺杂使烧结收缩率降低了2 ~ 4%,抑制了晶粒的生长。当烧结温度为1200℃时,铌含量较低的材料具有较高的强度和塑性,晶粒尺寸变化不大。在1400℃的高温烧结条件下,铌的掺杂抑制了晶粒的生长。屈服应力随铌含量的增加而增大。所研究的合金具有良好的低温强度和延展性,在700℃时具有较高的抗蠕变性能。它们表现出轻微的弱化趋势,因此有望用于700°C以上的高温应用。
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Phase Composition, Structure, and Mechanical Properties of Niobium-Doped γ-TiAl Materials Produced by Powder Hydride Technology

The effect of niobium on the structure, phase composition, and mechanical properties of γ -TiAl alloys were studied. The γ-TiAl alloys were doped with niobium within a solid solution; the amount of niobium in the alloys ranged from 2 to 10 at.%. Niobium was introduced as an Al3Nb intermetallic, allowing a superfine powder mixture to be produced by high-energy grinding. A TiH2 + Al3Ti + Al3Nb powder mixture was used to prepare the γ -TiAl alloys. This route minimized the Kirkendall–Frenkel effect in the Ti–Al system and prevented increase in additional porosity during sintering. Only TiAl and Ti3Al phases were revealed in the sintered materials, indicating that niobium had dissolved in the existing phases. To achieve the desired phase composition in the alloy, the content of aluminum had to be increased to compensate for its partial loss through evaporation during sintering. The alloys with a lower aluminum content showed higher strength but lower ductility, both at room and elevated temperatures, because of a greater amount of the α2 phase. Niobium doping reduced sintering shrinkage by 2–4% and inhibited the grain growth. The material with a low niobium content had greater strength and ductility at a sintering temperature of 1200°C, when the grain size hardly changed. The grain growth was inhibited by niobium doping at a high sintering temperature of 1400°C. The yield stress increased with the niobium content. The studied alloys exhibited satisfactory low-temperature strength and ductility, as well as high creep resistance at 700°C. They showed a little tendency to weakening and are therefore promising for hightemperature applications above 700°C.

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来源期刊
Powder Metallurgy and Metal Ceramics
Powder Metallurgy and Metal Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.90
自引率
20.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Powder Metallurgy and Metal Ceramics covers topics of the theory, manufacturing technology, and properties of powder; technology of forming processes; the technology of sintering, heat treatment, and thermo-chemical treatment; properties of sintered materials; and testing methods.
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