Gaseous carburising of self-passivating Fe–Cr–Ni alloys in acetylene–hydrogen was investigated for temperatures up to 823 K. Acetylene–hydrogen gas mixtures allow both the activation of the surface and the subsequent carburising at a high and adjustable carburising potential. For relatively low temperatures, carbon stabilised expanded austenite develops, which has high hardness, while retaining the corrosion performance of the untreated alloy; for relatively high temperatures, Cr based carbides develop, and eventually, the material deteriorates by metal dusting corrosion.
SomersMAJ, ChristiansenT: PCT international application no. WO2006136166-A1, 2005.
11.
BellT, Akamatsu (eds.)K: Proc. 1st Int. Conf. on ‘Thermochemical surface engineering of stainless steel’, Osaka, Japan, November 2000, Maney Publishing.
GrabkeHJ, KrajakR, Nava PazJC: Corros. Sci., 1993, 35, (5–8), 1141–1150.
15.
HummelshøjTS, ChristiansenTL, AppelCC, GrumsenFB, SomersMAJ: ‘Beneficial and catastrophic carburizing of stainless steel: from expanded austenite to metal dusting’, in preparation.
16.
CollinsS, WilliamsP: Adv. Mater. Processes, September 2006, 32–33.
17.
VillaE, DagataJA, HorwitzJ, SquireD, LinMC: J. Vac. Sci. Technol. A, 1990, 8A, 3237–3240.
18.
CullisCF, FranklinNH: Proc. R. Soc. Lond. A, 1964, 280A, 139–152.
