ДОСЛІДЖЕННЯ ЕЛЕКТРИЧНОГО ОПОРУ І ПОГЛИНАННЯ МІКРОХВИЛЬОВОГО ВИПРОМІНЮВАННЯ В КОМПОЗИТАХ AlN–SiC З ВИСОКИМ ВМІСТОМ КАРБІДУ КРЕМНІЮ

ДОСЛІДЖЕННЯ ЕЛЕКТРИЧНОГО ОПОРУ І ПОГЛИНАННЯ МІКРОХВИЛЬОВОГО ВИПРОМІНЮВАННЯ В КОМПОЗИТАХ AlN–SiC З ВИСОКИМ ВМІСТОМ КАРБІДУ КРЕМНІЮ

AlN–SiC ceramic composites suitable for for use as bulk microwave absorbers. With a large amount of experimental data, a relationship between the volume electrical resistance, the quality factor, and the absorption of microwave radiation in the frequency range of 30–40 GHz has been established in Al...

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Bibliographic Details
Date:2023
Main Authors: Часник, Василь, Фесенко, Ігор, Кайдаш, Оксана
Format: Article
Language:Ukrainian
Published: Институт сверхтвердых материалов им. В. Н. Бакуля Национальной академии наук Украины 2023
Subjects:
нітрид алюмінію
карбід кремнію
об’ємний поглинач мікрохвильового випромінювання
електричний опір
добротність
поглинання електромагнітної енергії
Online Access:http://altis-ism.org.ua/index.php/ALTIS/article/view/272
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Journal Title:Tooling materials science

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Tooling materials science
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Summary:AlN–SiC ceramic composites suitable for for use as bulk microwave absorbers. With a large amount of experimental data, a relationship between the volume electrical resistance, the quality factor, and the absorption of microwave radiation in the frequency range of 30–40 GHz has been established in AlN–SiC semiconductor composites with a high content of silicon carbide particles. In the same batch of 100 products, the absorption of microwave radiation changes by only 10–15%. It is shown that the absorption of radiation increases with a decrease in the volume resistance in the AlN–50% SiC composites: the absorption coefficient increases by a factor of 5 (from 1.58 to 8.0 dB/mm) with a decrease in resistance by a factor of 8.9 (from 17.8 up to 2.0 kΩ). The scatter in the values of volumetric electrical resistance is probably related to the resistance of leading chains of different lengths, consisting of silicon carbide particles of different sizes. To increase the absorption of electromagnetic energy, AlN–SiC ceramic composites with a high content of silicon carbide should have a reduced volume resistance on the order of 1–2 kΩ.

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