Experimental Verification of the Mechanism of Formation of Condensed Products from a Powder Mixture of Ti–B–TiH2 in the Course of Self-Propagating High-Temperature Synthesis

IF 0.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Inorganic Materials: Applied Research Pub Date : 2024-10-09 DOI:10.1134/S2075113324701223
A. G. Tarasov, A. V. Linde, V. T. Telepa, I. A. Studenikin
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Abstract

The features of self-propagating high-temperature synthesis (SHS) in combustion and electrothermal explosion modes from a powder mixture of Ti + B + 10 wt % TiH2 were experimentally investigated. The type of mechanism for the formation of condensed products was determined for each mode. It was found that, in the SHS process for this composition, regardless of the synthesis mode, an equilibrium mechanism is realized. A comparison of the phase composition of products for the two modes was conducted. It was experimentally confirmed that there is a fundamental possibility for multicomponent mixtures, where an equilibrium mechanism is realized, to synthesize products with the same phase composition but different morphology (sintered or melted).

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自蔓延高温合成过程中 Ti-B-TiH2 粉末混合物凝聚产物形成机理的实验验证
实验研究了钛 + B + 10 wt % TiH2 粉末混合物在燃烧和电热爆炸模式下的自蔓延高温合成(SHS)特征。确定了每种模式下形成凝聚产物的机理类型。研究发现,在这种成分的 SHS 过程中,无论采用哪种合成模式,都能实现平衡机制。对两种模式的产物相组成进行了比较。实验证实,在实现平衡机制的情况下,多组分混合物有可能合成出具有相同相组成但不同形态(烧结或熔化)的产品。
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来源期刊
Inorganic Materials: Applied Research
Inorganic Materials: Applied Research Engineering-Engineering (all)
CiteScore
0.90
自引率
0.00%
发文量
199
期刊介绍: Inorganic Materials: Applied Research  contains translations of research articles devoted to applied aspects of inorganic materials. Best articles are selected from four Russian periodicals: Materialovedenie, Perspektivnye Materialy, Fizika i Khimiya Obrabotki Materialov, and Voprosy Materialovedeniya  and translated into English. The journal reports recent achievements in materials science: physical and chemical bases of materials science; effects of synergism in composite materials; computer simulations; creation of new materials (including carbon-based materials and ceramics, semiconductors, superconductors, composite materials, polymers, materials for nuclear engineering, materials for aircraft and space engineering, materials for quantum electronics, materials for electronics and optoelectronics, materials for nuclear and thermonuclear power engineering, radiation-hardened materials, materials for use in medicine, etc.); analytical techniques; structure–property relationships; nanostructures and nanotechnologies; advanced technologies; use of hydrogen in structural materials; and economic and environmental issues. The journal also considers engineering issues of materials processing with plasma, high-gradient crystallization, laser technology, and ultrasonic technology. Currently the journal does not accept direct submissions, but submissions to one of the source journals is possible.
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