Sentence examples for disperse graphite from inspiring English sources
a Natural disperse graphite.
The morphology of natural disperse graphite, expanded graphite (TEG), and GNPs was examined by scanning electron microscope (SEM; Mira3 Tescan) at accelerating voltage of 10.0 kV.
TEG is a product of natural disperse graphite (d = 50 300 μm, h = 5 30 μm) intercalation with H2SO4 and subsequent heat treatment in a furnace with ascending flow according to the method developed, and it was reported in a previously published paper (Fig. 1).
The graphite nanoplatelets are produced as a result of the thermochemical treatment of the natural disperse graphite (surface oxidation and thermal shock get thermally expanded graphite (TEG)) and ultrasonic dispersing (UD) of thermally expanded graphite in various fluid environments [7 9].
Thermally expanded graphite (TEG) is a product of natural disperse graphite (d = 50 300 μm, h = 5 30 μm) intercalation with H2SO4 and subsequent heat treatment in a furnace with ascending flow according to the method developed and it was reported in previously published paper [22].
The protective coating against electromagnetic radiation (EMR) on the base of polymer composite filled with two types of graphite particles (ultra-disperse graphite C1 and graphite nanoplatelets — GNPs) had been prepared and investigated in the frequency range 25.5 37.5 GHz.
As-coated aluminide layer consists of the outer Al topcoat, inner Fe Al intermetallic layer and dispersed graphite.
Thermally conducting and highly compliant composites were developed by dispersing graphite nanoplatelets (GNPs) into a silicone matrix by mechanical mixing.
A new type of conductive aggregate was proposed and prepared for the first time by calcination of ceramic matrix and dispersed graphite powder.
Carbon ceramic electrodes were prepared by sol gel processing of a hydrophobic precursor – methyltrimethoxysilane (MTMOS) – together with dispersed graphite microparticles according to a literature procedure.
Dispersing graphite oxide in deionized water to obtain 1 mg/ml aqueous solution.
