Композиция Si3N4-TiN, синтезированная в системе«Si-NaN3-Na2TiF6» в режиме самораспространяющегося высокотемпературного синтеза

Кондратьева, Л А; Kerson, Irina; Bichurov, G. V.

doi:10.18411/lj2016-7-2-08

Тенденции Развития Науки И Образования 2016

DOI: 10.18411/lj2016-7-2-08

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Композиция Si3N4-TiN, синтезированная в системе«Si-NaN3-Na2TiF6» в режиме самораспространяющегося высокотемпературного синтеза

Л А Кондратьева¹,

Irina Kerson²,

G. V. Bichurov³

Abstract: Целью работы являлось исследование возможности получения по азидной технологии СВС нитридного композита Si3N4-TiN из смеси твердофазных компонентов «Si+ NaN3 + Na2TiF6». В качестве азида был взят азид натрия, а в качестве галоидной соли использовали соль азотируемого элемента -гексафтортитанат аммония.Из представленных в таблице 1 данных видно, что с увеличением содержания Si (х) или гексафтортитана натрия Na2TiF6 (у) в смеси «Si+NaN3+Na2TiF6» температура (Т)и скорость(U)горения сначала возрастают, а в дальней… Show more

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2023

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Self-Propagating High-Temperature Synthesis of Titanium Silicide in Silicon-Titanium Halide-Sodium Azide System

Kondratieva

2023

Transport Engineering

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The objective is to study the possibility of ob-taining titanium silicide using the azide technology of self-propagating high-temperature synthesis (SHS-Az) in silicon-titanium halide-sodium azide system. The task to which the paper is devoted is to find the optimal composition of the charge, which combus-tion gives the opportunity to obtain titanium halide by SHS-Az method. Research methods: the study of the titanium sil-icide synthesis in powder is carried out in the mode of solid-flame combustion in SHS-Az laboratory reactor. The synthesized powders are subjected to studies al-lowing to define the phase composition and structure. The studies are carried out using a diffractometer and a scanning electron microscope. The novelty of the work is in synthesizing tita-nium silicide not only by a new method in the mode of high-temperature combustion of the heterogeneous silicon-titanium halide-sodium azide system, but also by obtaining a powder with close values to the range of nanoparticles. Study results of obtaining titanium silicide by SHS-Az method from the heterogeneous silicon-titanium halide-sodium azide system show that the target product is a finely dispersed mixture of particles of equal shape but of different phase composition: Ti5Si3, TiSi2, TiN, Si, Ti. The average particle size is equal to 150-200 nm. Conclusions: it is found that Ti5Si3 and TiSi2 ti-tanium silicides can be obtained in the combustion mode by SHS-Az method from silicon-titanium halide-sodium azide system.

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Self-Propagating High-Temperature Synthesis of Titanium Silicide in Silicon-Titanium Halide-Sodium Azide System

Kondratieva

2023

Transport Engineering

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Композиция Si3N4-TiN, синтезированная в системе«Si-NaN3-Na2TiF6» в режиме самораспространяющегося высокотемпературного синтеза

Cited by 1 publication

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Self-Propagating High-Temperature Synthesis of Titanium Silicide in Silicon-Titanium Halide-Sodium Azide System

Self-Propagating High-Temperature Synthesis of Titanium Silicide in Silicon-Titanium Halide-Sodium Azide System

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