Advanced Boron Carbide Matrix Nanocomposites Obtained from Liquid-Charge: Focused Review

Advanced Boron Carbide Matrix Nanocomposites Obtained from Liquid-Charge: Focused Review

Boron carbide is known as a hard material; it possesses a unique complex of physical-mechanical properties and has diverse applications in industries. An expansion of its field of uses stems from the creation of boron carbide matrix nanocomposite materials. In view of this perspective, an effective...

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Veröffentlicht in:Condensed matter 2023-06, Vol.8 (2), p.37
Hauptverfasser: Chkhartishvili, Levan, Mikeladze, Archil, Tsagareishvili, Otar, Kvatchadze, Vakhtang, Tavkhelidze, Valery, Mestvirishvili, Zviad, Driaev, Dimitri, Barbakadze, Natia, Nadaraia, Lili, Sarajishvili, Ketevan, Jinikashvili, Irma, Buzariashvili, Manana, Chedia, Roin
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Armor
Borides
Boron
Boron carbide
boron carbide matrix
Carbides
Carbon
ceramic
Ceramic materials
Ceramics
Cermets
Composite materials
Hot pressing
Hydrochloric acid
Impact strength
liquid-charge synthesis
Mechanical properties
metal-ceramic
nanocomposite
Nanocomposites
physical-mechanical properties
Plasma sintering
Polyvinyl alcohol
Technology application
Temperature
Titanium
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Beschreibung
Zusammenfassung:Boron carbide is known as a hard material; it possesses a unique complex of physical-mechanical properties and has diverse applications in industries. An expansion of its field of uses stems from the creation of boron carbide matrix nanocomposite materials. In view of this perspective, an effective liquid-charge synthesizing method for their components in nanopowder form has been proposed. This paper provides a focused review on advanced boron carbide matrix ceramic and metal-ceramic nanocomposites recently obtained by the authors using this method. Particular attention is paid to the characterization of boron carbide nanocomposites, including some ceramic borides, metallic alloys and also other metal-ceramic composites.
ISSN:2410-3896
2410-3896
DOI:10.3390/condmat8020037