Effect of Water Vapor on Oxidation of Ferritic Stainless Steel 21Cr-0.6Mo-Nb-Ti in Simulated Reheating Environment-Reference-Cited by-同舟云学术

Effect of Water Vapor on Oxidation of Ferritic Stainless Steel 21Cr-0.6Mo-Nb-Ti in Simulated Reheating Environment

Published:2013-05 Issue: Volume:690-693 Page:280-289
ISSN:1662-8985
Container-title:Advanced Materials Research
language:
Short-container-title:AMR

Author:

Cheng Xia Wei¹,Jiang Zheng Yi¹,Wei Dong Bin¹,Hao Liang¹,Zhao Jing Wei¹,Peng Jian Guo²,Lu Shu Zheng³,Jiang Lei Zhu³

Affiliation:

1. University of Wollongong

2. Baoshan Iron & Steel Co., Ltd.

3. Stainless Steel Technical Center, Research Institute (R&D Center), Baoshan Iron & Steel Co., Ltd.

Abstract

High temperature oxidation of ferritic stainless steel 21Cr-0.6Mo-Nb-Ti was carried out isothermally at 1100 oC under different water vapour content conditions in an electrical furnace. Water vapour does accelerate the formation of oxide scale of stainless steel 21Cr-0.6Mo-Nb-Ti, however, it is not significant. Some oxide grains consist of spinel crystal structure, which should be spinel Manganese Chromite. In dry air atmosphere, the grain of the spinel is more and bigger than that in wet air. No breakaway oxidation occurs in the experiment indicating that 21Cr-0.6Mo-Nb-Ti has very high oxidation resistance, which might be contributed by the formation of MnCr2O4and compact protective chromia. In addition, continuous silica formed along and accumulated at the oxide metal interface performs like a diffusion barrier.

Publisher

Trans Tech Publications, Ltd.

Subject

General Engineering

Link

https://www.scientific.net/AMR.690-693.280.pdf

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