Regularities of structure formation and physical properties of multilayered composites based on W, Ta, Нf, Ti, Mo, Сr, Al, and С

Authors

  • V. I. Perekrestov Sumy State University
  • Yu. O. Kosminska Sumy State University
  • Yu. V. Gannych Sumy State University
  • G. S. Kornyushchenko Sumy State University'

DOI:

https://doi.org/10.15330/pcss.21.2.347-354

Keywords:

multicomponent coatings, composites, carbon, carbide, elemental composition, phase composition

Abstract

New fabrication technique of multilayered composite coatings on inner surface of pipes is developed which is based on ion–plasma sputtering of rod–like target composed of various metals and graphite. It is established that gradient change of elemental composition in the direction Сr→W→Mo→Ta→Hf→Ti→C→Ti/Al→C is accompanied by transition from metal mixture carbide to titanium carbide with the grain sizes of ~ 8–15 nm. It is found that increase in microhardness up to ~ 26 GPa is caused by additional surface heating by thermal radiation from the ion–heated rod and by elemental composition of the composite layers.

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Published

2020-06-15

How to Cite

Perekrestov , V. I., Kosminska , Y. O., Gannych, Y. V., & Kornyushchenko , G. S. (2020). Regularities of structure formation and physical properties of multilayered composites based on W, Ta, Нf, Ti, Mo, Сr, Al, and С. Physics and Chemistry of Solid State, 21(2), 347–354. https://doi.org/10.15330/pcss.21.2.347-354

Issue

Vol. 21 No. 2 (2020)

Section

Scientific articles
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