Structural-Phase Changes of Graphite during Mechanochemical Treatment

Victoriia A. Chaika; Valeriy V. Savin; L.A. Savina; A. V. Osadchy; I.S. Zherebcov

doi:10.4028/www.scientific.net/KEM.777.205

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 777Structural-Phase Changes of Graphite during...

Structural-Phase Changes of Graphite during Mechanochemical Treatment

Abstract:

Studied the structure and phase changes in graphite MPG-7 depending on time of mechanochemical treatment (MCT) in high-speed ball mill at different rotation frequencies. The formation of the carbon material with amorphous and diamond-like component shows. Note the spontaneous combustion of the carbon powder after 8 hours of the MCT at 1500 rpm.

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Advanced Materials and Engineering Materials VII

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Key Engineering Materials (Volume 777)

Pages:

205-209

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.777.205

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Online since:

August 2018

Authors:

Victoriia A. Chaika*, Valeriy V. Savin, L.A. Savina, A. V. Osadchy, I.S. Zherebcov

Keywords:

Amorphous Component, Diamond-Like Component, Mechanochemical Treatment, Nanocarbon

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References

[1] Maxim Polikarpov,* Hermann Emerich, Nataliya Klimova, Irina Snigireva, Valeriy Savin, and Anatoly Snigirev, Spectral X-Ray Glitches in Monocrystalline Diamond Refractive Lenses, - J.Phys. Status Solidi B (2017), 00, 1700229 (1 of 7).

DOI: 10.1002/pssb.201700229

Google Scholar

[2] Osadchy, A.V., Obraztsova, E.D., Savin, V.V., Svirko, Y.P., Computer simulation of edge-terminated carbon nanoribbons, Bulletin of the Lebedev Physics Institute, 44 (5), (2017) 151-153.

DOI: 10.3103/s1068335617050074

Google Scholar

[3] Prokofiev MV, Smolnikova ON, Bibikov SB, Kuznetsov AM Influence of heat treatment conditions on the structure and properties of coatings, from colloidal graphite dispersions. Bulletin of the MAI. 2010. V.17. №2. P.78-86.

Google Scholar

[4] Molodets AM, Golyshev AA, Emelyanov AN, Shulga Yu.M., Fortov V.E. The conductivity of shock-compressed glassy carbon. Letters to the JETP. 2014.- V. 99, issue 4, p.263 –267.

DOI: 10.1134/s0021364014040109

Google Scholar

[5] A.C. Ferrari and J. Robertson. Resonant Raman spectroscopy of disordered, amorphous, and diamondlike carbon. Physical Review B, V. 64.075414.

DOI: 10.1103/physrevb.64.075414

Google Scholar

[6] Rud AD, Ivashchuk LI, Kuskova NI, Zelinskaya GM, Uvarov VN, Melnichuk E.E. Structure of amorphous carbon obtained by the method of electric breakdown of hydrocarbon liquids. Chemistry and chemical technology. V. 53, issue 10. P. 38-43.

Google Scholar

[7] Dozhdikov VS, Basharin A.Yu., Levashov PR Amorphous carbon, hardened from liquid carbon: structure and properties over a wide range of pressures. Bulletin of the Technological University. 2016. V.19, №21. P.32-37.

Google Scholar