High-temperature heat-shielding, ceramic and ceramic-metal composite materials for new-generation aviation equipment

Балинова, Ю А; Гращенков, Д. В.; Шавнев, А.А.; Бабашов, В. Г.; Чайникова, А. С.; Kurbatkina, E.I.; Bolshakova, A. N.

doi:10.38013/2542-0542-2020-2-83-92

Cited by 5 publications

(1 citation statement)

References 3 publications

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“…Температуры до 460 °С определяют зоны применимости титана, до 780-800 °С -жаропрочных сталей, до 980-1000 °С -кобальтовых или ниобиевых суперсплавов. Для особонагруженных зон с рабочей температурой до 2000 °С специалистами выработаны рекомендации в части использования композиционных материалов класса «углерод-кремний», «углерод-углерод» и других неметаллических материалов [13,14]. Кроме этого, известны работы по созданию титаноматричных композиционных материалов (КМ), а также ультравысокотемпературных КМ на основе боридов гафния или циркония с добавлением силицида кремния [15].…”

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Advanced methods for organizing thermal protection of hypersonic aircrafts

Аронов

Клягин

2021

Journal of «Almaz – Antey» Air and Space Defence Corporation

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On the basis of analytical and experimental data, this paper presents possible levels of thermal loading of reusable hypersonic aircrafts. Methods for ensuring the thermal regime of such aircrafts using various passive and active thermal protection technologies are considered. The conducted analysis of the scientific and technical background in terms of the practical implementation of these technologies allowed the authors to draw the conclusion about the relevance and expediency of creating an integrated thermal protection system for reusable high-speed aircrafts.

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Advanced methods for organizing thermal protection of hypersonic aircrafts

Аронов

Клягин

2021

Journal of «Almaz – Antey» Air and Space Defence Corporation

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Obtaining Aluminum – Matrix Composite Materials Particulate-Reinforced with Ceramic Particles

2022

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Ion-plasma modification of the surface of light fiber materials

Andrianova

Борисов

Крит

et al. 2020

J. Phys.: Conf. Ser.

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The results of experimental study of the irradiation under 30 keV Ar+ with the temperature ∼250 °C of viscose based carbon cloth TGN-2MK and SU-2500 glassy carbon are presented. According to the scanning electron microscopy and Raman spectroscopy, modified layer of TGN-2MK obtained by ion irradiation is similar of modified layer of the glassy carbon in the structure and morphology. The formation of nanoscale wall in both cases occurs during graphitization under conditions of dynamic annealing of radiation damage.

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High-temperature heat-shielding, ceramic and ceramic-metal composite materials for new-generation aviation equipment

Cited by 5 publications

References 3 publications

Advanced methods for organizing thermal protection of hypersonic aircrafts

Advanced methods for organizing thermal protection of hypersonic aircrafts

Obtaining Aluminum – Matrix Composite Materials Particulate-Reinforced with Ceramic Particles

Ion-plasma modification of the surface of light fiber materials

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