Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure

Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure

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Bibliographic Details
Date:2017
Main Authors: V. I. Chasnyk, V. G. Poltoratskij, O. V. Leshchenko
Format: Article
Language:English
Published: 2017
Series:Superhard Materials
Online Access:http://jnas.nbuv.gov.ua/article/UJRN-0000850199
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Journal Title:Library portal of National Academy of Sciences of Ukraine | LibNAS

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Library portal of National Academy of Sciences of Ukraine | LibNAS
id open-sciencenbuvgovua-41993
record_format dspace
spelling open-sciencenbuvgovua-419932024-02-29T11:56:57Z Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure V. I. Chasnyk V. G. Poltoratskij O. V. Leshchenko 0203-3119 2017 en Superhard Materials http://jnas.nbuv.gov.ua/article/UJRN-0000850199 Article
institution Library portal of National Academy of Sciences of Ukraine | LibNAS
collection Open-Science
language English
series Superhard Materials
spellingShingle Superhard Materials
V. I. Chasnyk
V. G. Poltoratskij
O. V. Leshchenko
Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
format Article
author V. I. Chasnyk
V. G. Poltoratskij
O. V. Leshchenko
author_facet V. I. Chasnyk
V. G. Poltoratskij
O. V. Leshchenko
author_sort V. I. Chasnyk
title Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
title_short Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
title_full Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
title_fullStr Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
title_full_unstemmed Attenuation of microwave radiation at 34.09–34.19 GHz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
title_sort attenuation of microwave radiation at 34.09–34.19 ghz in a composite material based on diamond micron powder structured by a nanocarbon binder vapor-deposited at subatmospheric pressure
publishDate 2017
url http://jnas.nbuv.gov.ua/article/UJRN-0000850199
work_keys_str_mv AT vichasnyk attenuationofmicrowaveradiationat34093419ghzinacompositematerialbasedondiamondmicronpowderstructuredbyananocarbonbindervapordepositedatsubatmosphericpressure
AT vgpoltoratskij attenuationofmicrowaveradiationat34093419ghzinacompositematerialbasedondiamondmicronpowderstructuredbyananocarbonbindervapordepositedatsubatmosphericpressure
AT ovleshchenko attenuationofmicrowaveradiationat34093419ghzinacompositematerialbasedondiamondmicronpowderstructuredbyananocarbonbindervapordepositedatsubatmosphericpressure
first_indexed 2025-07-17T20:02:51Z
last_indexed 2025-07-17T20:02:51Z
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