Formation of coatings with nanostructures and amorphous structures View Full Text


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Article Info

DATE

2007-12

AUTHORS

V. I. Kalita, V. V. Yarkin, V. P. Bagmutov, S. N. Parshev, I. N. Zakharov, A. V. Kasimtsev, G. U. Lubman, D. I. Komlev, V. I. Mamonov

ABSTRACT

A technique for spraying coatings as thick as 10 mm (one-point spraying technique) is designed to analyze the changes in the structure of rapidly quenched coatings of nickel-and iron-based eutectic alloys at high heating and cooling rates. Zones with amorphous, nano-, and microcrystalline structures form across the coatings. The microhardness of the coating of a grade 12496 nickel-based alloy (Ni-0.8% C-15% Cr-4.1% Si-3.1% B) is maximal in the zone with nanophases, and the microhardness increases from 11351.3 ± 461 to 16372 ± 2066 MPa as the load decreases from 0.2 to 0.01 N. This scale dependence is explained by the effect of microporosity at the boundaries of the sprayed particles. The microhardness of the initial grade 12496 alloy powder with strengthening microphases at a load of 0.01 N is 11572.9 ± 1996 MPa, which is lower than the maximum microhardness of the coating by a factor of 1.41. Thermoplastic treatment of the grade 12496 alloy coating increases its microhardness at a load of 0.05 N from 12372.8 ± 1226.8 to 13287 ± 612.5 MPa due to the strong cohesion of the particles in the coating and the formation of strengthening nanophases in it. More... »

PAGES

534-539

Identifiers

URI

http://scigraph.springernature.com/pub.10.1134/s003602950706016x

DOI

http://dx.doi.org/10.1134/s003602950706016x

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1053537687


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