It is established that sintered hard alloy T15K6 formed from tungsten and titanium carbides and prepared by mechanochemical synthesis exhibits good mechanical properties, and this opens up new prospects for its use in manufacturing cutting and stamping tools operating under dynamic conditions.
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References
V. V. Skorokhod, Powder Materials Based on Refractory Metals and Compounds [in Russian], Tekhnika, Kiev (1982).
E. I. Zamulaeva, E. A. Levashov, and A. E. Kudryashov, “Effect of the WC–Co electrode structure on the rate of applying electrospark coatings,” Metallurg, No. 9, 30–34 (2011).
V. B. Ankudinov, Yu. A. Marukhin, O. A Mesentsev, et al., “Preparation of monodispersed spherical granules from different metals,” Metallurg, No. 7, 70–74 (2011).
D. V. Onishchenko and V. V. Chakov, “Renewable plant raw material as a basis for preparing functional nanocomposite materials for universal purposes,” Zh. Prikl. Khim., 84, No. 9, 1562–1566 (2011).
D. V. Onishchenko and V. P. Reva, “Preparation of tungsten carbide nanopowder by mechanical activation,” Fiz. Khim. Obrab. Mater., No. 2, 71–77 (2011).
D. V. Onishchenko, V. P. Reva, and V. G. Kuryavyi, “Priority criteria for mechanochemical synthesis of titanium and tungsten carbides with participation of different carbon components,” Metallurg, No. 12, 41–45 (2012).
D. V. Onishchenko and V. P. Reva, “Bases of mechanochemical synthesis technology for titanium carbide with participation of different carbon components, “Teoret. Osn. Khim. Tekhnol., No. 5, 583–594 (2012).
D. V. Onishchenko, V. P. Reva, and V. V. Chakov, “Innovative technology of mechanochemical synthesis of titanium carbide with a low sulfur content,” Stal, No. 11, 80–84 (2012).
D. V. Onishchenko and V. P. Reva, “Mechanochemical synthesis of metal carbides using carbon from plant raw material,” Khim. Interes. Ustoich. Razvitiya, No. 12, 699–705 (2012).
V. P. Reva, D. V. Onishchenko, V. V. Chakov, and B. A. Voronov, “Prospective modification of carbon for mechanochemical synthesis of titanium carbide,” Dokl. Akad. Nauk, No. 4, 421–423 (2012).
H. Vashul, Practical Metallography. Specimen Preparation Methods [Russian translation], Metallurgiya, Moscow (1988).
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Translated from Metallurg, No. 6, pp. 82–85, June, 2013.
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Onishchenko, D.V., Reva, V.P., Kuryavyi, V.G. et al. Innovative Technology for Forming Hard Alloy T15K6 Using Amorphous Carbon from Renewable Plant Raw Material. Metallurgist 57, 548–552 (2013). https://doi.org/10.1007/s11015-013-9768-z
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DOI: https://doi.org/10.1007/s11015-013-9768-z