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Home  >  Journal list  >  MATERIALS TRANSACTIONS  >  Vol.42  No.8 (2001)  >  pp.1723-1730

<<Previous article Vol.42  No.8 (2001)   pp.1723 - 1730 Next article>>

Effects of Al, Si and Mo on Passivation Characteristics of Fe-10Cr Alloys

Katsuya Hio1), Takashi Adachi2), Takashi Yamada3), Yutaka Tsuchida2), Koe Nakajima2) and Yuzo Hosoi2)
1) Metals Laboratory, Industrial Research Division, Mie Prefectural Science and Technology Promotion Center
2) Department of Mechanical Engineering, Faculty of Engineering, Daido Institute of Technology
3) Inorganic Material Research Office, Materials Technology Department,Nagoya Municipal Industrial Research Institute

A study has been made on the effects of Al, Si and Mo on anodic polarization characteristics of Fe–10Cr alloys in 0.05–1.0 kmol·m−3 H2SO4 and NaCl solutions. Potential decay curves have also been measured in order to evaluate the stability of the passive films formed on Fe–10Cr alloys containing Al, Si and Mo. The analysis of the chemical composition of the passive film has been carried out by AES and XPS . The addition of Mo was very useful to decrease the critical passivation current density of Fe–10Cr alloys which contained Al and Si. The passive current density decreased with addition of 2 mass%Mo to Fe–10Cr–3Si alloy, while it increased in Fe–10Cr–3Al alloy. Pitting potential was moved toward the noble direction by the addition of Mo, except for the case of Fe–10Cr–3Al–3Si–2Mo alloy. It seems that Laves phase (Fe2Mo) was precipitated in this alloy, and Mo-depleted zone was formed locally. The potential decay time of the passive film was increased by the addition of Al, Si and Mo to Fe–10Cr alloys. Two step potential decay curves were obtained in Si-containing alloys, and this behavior of the decay curve was shown more clearly in Fe–10Cr–3Si–2Mo alloy. The results of AES and XPS analysis indicated that Cr and Al concentrated in the passive film of Fe–10Cr–Al alloy. In the case of Fe–10Cr–Si alloy, Si concentrated in the surface region of the film and Cr in the internal region of the film. The confirmation was not possible for the enrichment of Mo in the passive film.

iron-chromium alloy, aluminum, silicon, molybdenum, anodic polarization, pitting potential, decay curve, passive film, Auger electron spectroscopy, x-ray photoelectron spectroscopy

Received: February 02, 2001
Accepted: June 06, 2001 , Published online: September 06, 2005
Copyright (c) 2005 The Japan Institute of Metals



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