Combustion Synthesis of Boron Carbide Matrix for Superhard Nanocomposites Production
- Authors: Levan Chkhartishvili*1, Archil Mikeladze2, Roin Chedia3, Otar Tsagareishvili4, Mehmet Bugdayci5, Idris Karagoz6, Taylan Maras7, Nikoloz Jalabadze8, Vakhtang Kvatchadze9
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View Affiliations Hide AffiliationsAffiliations: 1 Georgian Technical University, Tbilisi, Georgia | Ferdinand Tavadze Metallurgy and Materials Science Institute, Tbilisi, Georgia 2 Ferdinand Tavadze Metallurgy and Materials Science Institute, Tbilisi, Georgia 3 Peter Melikishvili Institute of Physical and Organic Chemistry, Tbilisi, Georgia 4 Ferdinand Tavadze Metallurgy and Materials Science Institute, Tbilisi, Georgia 5 Chemical Engineering Department, Yalova University, Yalova, Turkey 6 Polymer Materials Engineering Department, Yalova University, Yalova, Turkey 7 Chemical Engineering Department, Istanbul Technical University, Istanbul, Turkey 8 Georgian Technical University, Tbilisi, Georgia 9 Elevter Andronikashvili Institute of Physics, Tbilisi, Georgia
- Source: Advances in Combustion Synthesis and Technology , pp 66-95
- Publication Date: March 2022
- Language: English
Boron carbide creates a wide area of use thanks to superior hardness, high wear resistance, and melting temperature. In this study, the production parameters of this material and its various composites have been investigated by different methods. An effective two-stage production technology for nanocomposites based on boron carbide is suggested. First, boron carbide nanopowders are obtained by the combustion method, and then boron carbide based ceramic/metal-ceramic nanocomposites are produced by the joint sintering/milling/melting methods.
Hardbound ISBN:
9789815050455
Ebook ISBN:
9789815050448
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