Boriding of High Chromium Steels

Title:Boriding of High Chromium Steels

Volume: 6 Issue: 2

Author(s): Vasyl I. Dybkov

Affiliation:

Keywords: 13 and 25% Cr steels, boride layers, chemical composition, growth kinetics, microstructure, phase identity, wear resistance.

Abstract: Two boride layers having different kinds of microstructure are formed on the surface of industrial high chromium steel (13 and 25% Cr) samples during their interaction with boron powder at 850–950ºC and reaction times 3600–43200 s (1–12 h). In the case of 13% Cr steel, the outer layer bordering boron consists of the FeB phase, whereas the inner layer adjacent to the solid substrate consists of the Fe2B phase. Each layer is a homogeneous phase. It is a microstructure of the first kind. With 25% Cr steel, each of boride layers is two-phase. The outer layer comprises the FeB and CrB phases, while the inner layer the Fe₂B and Cr₂B phases. It is a microstructure of the second kind. Both boride layers on both steels are characterized by a profound texture. Growth kinetics of boride layers obeys a parabolic relation. Boride layers with the microstructure of the second kind exhibit a much higher dry abrasive wear resistance than those with the microstructure of the first kind.

Cite this article as:

I. Dybkov Vasyl, Boriding of High Chromium Steels, Current Physical Chemistry 2016; 6 (2) . https://dx.doi.org/10.2174/1877946806666160331203824