Content area
Abstract
The oxidation behavior of Fe-16Cr steels in N^sub 2^-12 vol pet H2O was studied at 850 °C. The oxide scale was compact and had excellent adhesion to the substrate; moreover, there were three layers of different compositions existing in the scale. To gain an insight into the transport mechanism, two-stage oxidation was carried out in N^sub 2^-12 vol pet H^sub 2^^sup 16^O and followed in N^sub 2^-12 vol pet H^sub 2^^sup 18^O gas mixtures. The oxygen isotope profiles in oxide scales were determined by secondary ion mass spectrometry. The results showed that oxidation in water vapor proceeded by outward chromium transport, especially, the oxidation involved inward transport of water molecules. [PUBLICATION ABSTRACT]
Details
Title
Abnormal Growth Transport in Oxide Scales on Fe-16Cr Steels in Water Vapor
Author
Gong, Jia; Jiang, Y M; Deng, B; Zhong, C; Sun, D M; Li, J
Pages
2511-2513
Section
Communication
Publication year
2009
Publication date
Nov 2009
ISSN
10735623
e-ISSN
15431940
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
213709734
Copyright
Copyright Minerals, Metals & Materials Society Nov 2009