Heat Resistance of the Powder Cobalt Alloys Reinforced with Niobium or Titanium Carbide

Authors

  • T.S. Cherepova Kurdymov Institute for Metal Physics, the NAS of Ukraine, Kyiv
  • G.P. Dmitrieva Kurdymov Institute for Metal Physics, the NAS of Ukraine, Kyiv
  • V.K. Nosenko Kurdymov Institute for Metal Physics, the NAS of Ukraine, Kyiv

DOI:

https://doi.org/10.15407/scine12.01.005

Keywords:

cobalt alloys, heat resistance, niobium carbide, titanium carbide

Abstract

Heat-resistance of powder cobalt alloys at 1100 °C has been studied. These alloys have been designed for the protection of GTE blade platforms from wear and prepared by hot compaction of cobalt, chrome, aluminum, and iron powders and niobium or titanium carbides. Heat resistance of the alloys containing carbides between 30 and 70% (vol.) depends on the type of carbide: the alloys with titanium carbide have a higher heat-resistance as compared with the alloys containing niobium carbide. The most significant factor affecting the heat-resistance of alloys is porosity: as it increases the parameters decrease regardless of the type and content of carbide. The optimum composition of powder heat-resistant alloy containing titanium carbide with a melting point above 1300 °C, to be used in the aircraft engine industry has been established.

References

Pat. Ukrai’ny N 8240A. Splav na osnovi kobal’ta. Shurin A.K., Dmytrijeva G.P., Cherepova T.S. ta in. [in Ukrainian].

Pat. Ukrai’ny na korysnu model’ N 39450. Splav na osnovi kobal’tu. Shurin A.K., Cherepova T.S., Andrijchenko N.V., Zamkovyj V.Je. [in Ukrainian].

Shurin A.K., Dmitrieva G.P., Matjushenko N.I., Maksjuta I.I., Cherepova T.S. Vysokotemperaturnaja solevaja korrozija kobal’t-karbidnyh jevtekticheskih splavov. Zashhita metallov. 1990, 26(4): 659—661 [in Russian].

Supersplavy II. Zharoprochnye metally dlja ajerokosmicheskih i promyshlennyh ustanovok. Per. s angl. Red. Sims. Ch.T. Moskva: Metallurgija, 1995 [in Russian].

Zharoprochnye splavy na osnove kobal’ta dlja primenenija v gazovyh turbinah. Mater. Sci. and Eng. 1987 — 88. R. 11—19 [in Russian].

Reznik I.D., Sobol’ S.N., Hudjakov V.M. Kobal’t. Moskva: Mashinostroenie. 1995, T. 1. 1996. T.2 [in Russian].

Physical Properties of Materials, Materials Engineering — Materials Selector — 1987. dec. 1986. v. 103. N T — 12. P. 81—83.

Cherepova T.S., Dmytrijeva G.P., Nosenko A.V, Semyrga O.M. Znosostijkyj splav dlja zahystu kontaktnyh poverhon’ robochyh lopatok aviacijnyh dvyguniv vid okyslennja pry vysokyh temperaturah. Nauka innov. 2014, 10(4):22—31 [in Ukrainian].

Vojtovich R.F. Okislenie karbidov i nitridov. Kyiv: Nauk. dumka, 1981 [in Russian].

Jenciklopedija neorganicheskih materialov. Kyiv, 1977. T. 1. [in Russian].

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Published

2024-08-19

How to Cite

Cherepova, T., Dmitrieva, G., & Nosenko, V. (2024). Heat Resistance of the Powder Cobalt Alloys Reinforced with Niobium or Titanium Carbide. Science and Innovation, 12(1), 5–10. https://doi.org/10.15407/scine12.01.005

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Section

Scientific Framework of Innovation Activity