Abstract
The elemental composition, the phase composition, and the particle size of the powder fabricated by electroerosion dispersion of the waste of high-speed R18 tool steel in distilled water are investigated.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
M. I. Dvornik, A. D. Verkhoturov, and T. B. Ershova, “Production of nanostructured tungsten–cobalt powder by electroerosion dispersion of the hard VK8 alloy,” Perspekt. Mater., No. 3, 70–75 (2006).
R. K. Bairamov, “Aluminium powder production by electrospark dispersion of metal in aqueous solutions,” Tsvetn. Met., No. 10, 69–71 (2009).
T. B. Ershova, A. D. Verkhoturov, and V. L. Butukhanov, “Development and production of powder materials using tungsten-containing mineral raw materials,” Perspekt. Mater., No. 4, 86–90 (2011).
B. Song, S. Dong, B. Zhang, et al., “Effects of processing parameters on microstructure and mechanical property of selective laser melted Ti6Al4V,” Mater. Des. 35, 120–125 (2012).
Z. Wang, K. Guana, and M. Gaoa, “The microstructure and mechanical properties of deposited-IN718 by selective laser melting,” J. Alloys Compd. 513, 518–523 (2012).
O. B. Kovalev, “Simulation of processes during the laser additive manufacture of volume metal products,” Izv. Ross. Akad. Nauk, Ser. Fiz. 80 (4), 408 (2016).
A. G. Grigor’yants and I. N. Shiganov, “Development of the Russian equipment for the laser additive technologies by fusion of metal powders,” Elektrometallurgiya No. 9, 27–32 (2019).
M. N. Putintseva and A. P. Isaenko, “Properties of the WC–Co alloy powders produced by the electroerosion dispersion in kerosene,” Vestn. Voronezh Gos. Tekh. Univ. 1 (11), 84–86 (2002).
A. V. Petridis, A. A. Tolkushev, and E. V. Ageev, “Composition and properties of the powders produced from the solid alloy wastes by the electroerosion dispersion (EED),” Tekhnol. Met. No. 6, 13–16 (2005).
E. V. Ageeva, R. A. Latypov, P. I. Burak, and E. V. Ageev, “Manufacture of hard alloy parts by cold isostatic pressing of electric discharge powders and their investigation,” Izv. Yugo-Zapadn. Gos. Univ., No. 5 (50), 116–125 (2013).
E. V. Ageev, B. A. Semenikhin, E. V. Ageeva, and R. A. Latypov, “Investigations of the chemical composition of the powders produced by the electroerosion dispersion of the hard alloy,” Izv. Yugo-Zapadn. Gos. Univ., No. 5–1 (38), 138a–144 (2011).
E. V. Ageev, B. A. Semenikhin, and R. A. Latypov, “A promising method for processing sintered hard alloy waste. Economics of environmental management and environmental protection,” in Proceedings of XII International Conference, Ed. by V. V. Arbuzov (Privolzhskii Dom Znanii, Penza, 2011).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated by T. Gapontseva
Rights and permissions
About this article
Cite this article
Latypova, G.R., Karpenko, N.N., Latypov, R.A. et al. Composition and Properties of the Powder Fabricated from the Waste of High-Speed R18 Tool Steel by Electroerosion Dispersion. Russ. Metall. 2020, 698–701 (2020). https://doi.org/10.1134/S0036029520060117
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0036029520060117