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Structure and Properties of Specimens Sintered from High-Chromium Powders Obtained by Electrodispersion of Metallic Waste in Water

  • POWDER AND COMPOSITE MATERIALS
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Metal Science and Heat Treatment Aims and scope

Structure and properties of sintered specimens of electroerosion high-chromium powders obtained in water are studied. It is shown that the process of spark plasma sintering provides suppression of grain growth, low porosity, and high physical and mechanical properties in the case of uniform distribution of heat over the specimens and short time of the working cycle.

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References

  1. Zh. V. Eremeeva, N. M. Nikitkin, and G. Kh. Sharipzyanova, “Special features of application of nanosize carbon and chromium powders for processes of blend preparation and pressing of powder steels,” Izv. MGTU MAMI, No. 2(12), 123 – 127 (2011).

  2. T. V. Vysotskii and V. T. Vysotskii, “Processes of fabrication of mechanically alloyed powder steels and articles from them,” Vestn. Belorus.-Ross. Univ., No. 3(20), 58 – 65 (2008).

  3. V. I. Kostikov, Zh. V. Eremeeva, S. I. Rupasov, et al., “Heat treatment of powder hot-deformed steels alloyed with nanosize carbon and chromium,” Materiallovedenie, No. 1, 51 – 55 (2012).

  4. V. K. Narva, A. V. Marants, and Zh. A. Sentyurina, “A study of the process of laser deposition of a ‘steel – titanium carbide’ powder mixture on a steel substrate,” Izv. Vyssh. Ucheb. Zaved., Poroshk. Metall. Funkts. Pokr., No. 4, 25 – 31 (2012).

  5. Yu. G. Dorofeev, S. S. Mikhailenko, A. V. Babets, et al., “Effect of thermochemical treatment on the structure and properties of low-alloy powder steels,” Izv. Vyssh. Ucheb. Zaved. Severo- Kavkaz. Reg., Tekh. Nauki, No. 5, 37 – 40 (2004).

  6. Yu. G. Dorofeev, V. Yu. Dorofeev, A. V. Babets, et al., “Special features of contact interaction on the interface of layers of hot-stamped powder bimetal of the ‘structural steel – high-speed steel’ type,” Izv. Vyssh. Ucheb. Zaved., Poroshk. Metall. Funkts. Pokr., No. 3, 11 – 22 (2018).

  7. I. P. Borodin, Yu. S. Shatov, V. Yu. Shiryaev, et al., “Structure and properties of steel 45 – powder steel ASP2005 composite formed by explosion energy,” Metalloved. Term. Obrab. Met., No. 8(674), 8 – 11 (2011).

  8. V. G. Shishka, A. V. Skorikov, I. V. Ivanova, and N. V. Shishka, “Choice of alloying elements for improving the machinability of structural steels,” Inzh. Vestn. Dona, No. 4(51), 11 (2018).

  9. V. L. Girshov, V. N. Tsemenko, and S. A. Mazurov, “A study of the effect of structural flaws on the strength of powder high-speed steels,” Nauch.-Tekh. Vedom. Sankt-Peterb. Gos. Politekh. Univ., No. 3(130), 175 – 180 (2011).

  10. V. N. Antsiferov, V. Ya. Bulanov, Yu. G. Gurevich, et al., “A study of decomposition of supercooled austenite of powder steels by novel digital magnetometer,” Metalloved. Term. Obrab. Met., No. 4(598), 24 – 29 (2005).

  11. V. N. Antsiferov, L. M. Grevnov, M. F. Torsunov, and V. A. Boyarshinov, “Structure of fullerene-containing deformed powder steels,” Izv. Vyssh. Ucheb. Zaved., Poroshk. Metall. Funkts. Pokr., No. 3, 7 – 11 (2012).

  12. L. N. D’yachkova and L. F. Kerzhentseva, “Activation of the process of sintering of powder carbon steels,” Izv. Vyssh. Ucheb. Zaved., Poroshk. Metall. Funkts. Pokr., No. 4, 32 – 37 (2012).

  13. S. I. Bogodukhov, “Hardening of powder steels with the use of rapid heating,” Mashinostroitel’, No. 10, 38 – 40 (1999).

  14. V. N. Kornopol’tsev, “Intensification of the processes of boronizing of carbon steels with powder mixtures,” Fundam. Prob. Sovr. Materialoved., 10(2), 266 – 271 (2013).

    Google Scholar 

  15. R. A. Latypov, G. R. Latypova, E. V. Ageev at al., “Elemental composition of the powder particles produced by electric discharge dispersion of the wastes of a VK8 hard alloy,” Russian Metallurgy (Metally), No. 12, 1083 – 1085 (2017).

  16. R. A. Latypov, G. R. Latypova, E. V. Ageev at al., “Properties of the coatings fabricated by plasma-jet hard-facing by dispersed mechanical engineering wastes,” Russian Metallurgy (Metally), No. 6, 573 – 575 (2018).

  17. E. V Ageev and R. A. Latypov, “Fabrication and investigation of carbide billets from powders prepared by electroerosive dispersion of tungsten-containing wastes,” Russ. J. Non-Ferr. Met., 55(6), 577 – 580 (2014).

    Article  Google Scholar 

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The study has been performed with financial support of the Russian Foundation for Fundamental Research in the framework of project No. 19-33-90053.

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  1. South-West State University, Kursk, Russia

    E. V. Ageeva, E. V. Ageev & A. A. Sysoev

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  1. E. V. Ageeva
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  2. E. V. Ageev
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  3. A. A. Sysoev
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Correspondence to E. V. Ageev.

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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 11, pp. 51 – 54, November, 2021.

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Ageeva, E.V., Ageev, E.V. & Sysoev, A.A. Structure and Properties of Specimens Sintered from High-Chromium Powders Obtained by Electrodispersion of Metallic Waste in Water. Met Sci Heat Treat 63, 625–628 (2022). https://doi.org/10.1007/s11041-022-00739-4

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  • DOI: https://doi.org/10.1007/s11041-022-00739-4

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