ELECTRICALLY CONDUCTIVE POLYCRYSTALLINE SUPER HARD MATERIAL BASED ON DIAMOND AND n-LAYER GRAPHENES | Zendy

Alexandr A. Shul’zhenko | Zendy; L. Jaworska | Zendy; A. N. Sokolov | Zendy; V. G. Gargin | Zendy; L. A. Romanko | Zendy

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ELECTRICALLY CONDUCTIVE POLYCRYSTALLINE SUPER HARD MATERIAL BASED ON DIAMOND AND n-LAYER GRAPHENES

Author(s) -

Alexandr A. Shul’zhenko,

L. Jaworska,

A. N. Sokolov,

V. G. Gargin,

L. A. Romanko

Publication year - 2018

Publication title -

izvestiya vysshikh uchebnykh zavedeniy khimiya khimicheskaya tekhnologiya

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.221

H-Index - 5

eISSN - 2500-3070

pISSN - 0579-2991

DOI - 10.6060/tcct.20165908.25y

Subject(s) - materials science , crystallite , graphene , diamond , polycrystalline diamond , electrical conductor , layer (electronics) , composite material , sheet resistance , material properties of diamond , electrically conductive , nanotechnology , metallurgy

The electrical and physical properties of the electrically conductive super hard material on the basis of polycrystalline diamond and n-layered graphenes obtained at high pressures and temperatures were studied. It was established that the increase in graphene in a polycrystalline diamond compact leads to a sharp decrease in resistance. Wherein the hardness of the samples is slightly inferior to the hardness of diamond poly crystals obtained without the use of graphene.

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