The effect of selective oxidation of chromium on the creep strength of alloy 617

P.J. Ennis; W.J. Quadakkers; H. Schuster

doi:doi:10.1051/jp4:19939101

Numéro		J. Phys. IV France Volume 03, Numéro C9, Décembre 1993 Proceedings of the 3rd International Symposium on High Temperature Corrosion and Protection of Materials Actes du 3ème Colloque International sur la Corrosion et la Protection des Matériaux à Haute Température


Page(s)		C9-979 - C9-986
DOI		https://doi.org/10.1051/jp4:19939101

Proceedings of the 3rd International Symposium on High Temperature Corrosion and Protection of Materials
Actes du 3ème Colloque International sur la Corrosion et la Protection des Matériaux à Haute Température

J. Phys. IV France 03 (1993) C9-979-C9-986
DOI: 10.1051/jp4:19939101

The effect of selective oxidation of chromium on the creep strength of alloy 617

P.J. Ennis, W.J. Quadakkers and H. Schuster

Research Centre (KFA) Juelich, Institute for Reactor Materials, Postfach 1913, 5170 Juelich 1, Germany

Abstract
In order to investigate the effect on creep strength of the selective oxidation of chromium which causes the formation of a carbide-fi-ee subsurface zone, specimens of Ni22Cr12Co9Mo1Al (Alloy 617) were subjected to heat treatments to simulate a long-term service exposure of a thin-walled heat exchanger tube operating at high temperatures. In creep tests carried out at 900°C, specimens with extensive chromium-depleted and carbide-free subsurface zones exhibited higher creep strength than specimens thermally aged for the same durations, but having no carbide-free zone. The carbon released by dissolution of the carbides in the chromium-depleted zone migrated to the centre of the specimen, producing enhanced carbide precipitation. This led to an increase in the creep strength of the specimen core which offset the loss in creep strength of the subsurface zone.