二元Fe-Cr合金在900℃左右从内部氧化到外部氧化的转变

IF 2.1 3区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Oxidation of Metals Pub Date : 2024-12-06 DOI:10.1007/s11085-024-10322-2

A. Chyrkin, J. Froitzheim, W. J. Quadakkers

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引用次数: 0

摘要

研究了Fe- 10cr二元合金在850 ~ 900℃的Fe/FeO Rhines pack （RP）和H2/H2O中从外氧化到内氧化的转变。温度的升高和水蒸气的存在促进了内部氧化。经典的瓦格纳扩散分析预测铁素体（BCC） Fe-10Cr的外部氧化和奥氏体（FCC） Fe-10Cr的内部氧化。在900℃左右，α-to-γ转变是促进Fe-Cr内部氧化的主要因素。水蒸气被认为可以促进内部氧化，因为H2O比O2具有更高的反应活性，并且H2O分子具有更高的优先吸附性。

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Transition from Internal to External Oxidation in Binary Fe–Cr Alloys Around 900 °C

The transition from external to internal oxidation of a binary Fe-10Cr alloy has been investigated in Fe/FeO Rhines pack (RP) and H₂/H₂O between 850 and 900 °C. Internal oxidation is facilitated by increasing temperature and presence of water vapor. A classical Wagnerian diffusion analysis predicts external oxidation for ferritic (BCC) Fe-10Cr and internal oxidation for austenitic (FCC) Fe-10Cr. The α-to-γ transformation is demonstrated to be the primary factor promoting internal oxidation in Fe–Cr around 900 °C. Water vapor is believed to promote internal oxidation due to a higher reactivity of H₂O compared to O₂ and higher preferential adsorption of the H₂O molecule.

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来源期刊

Oxidation of Metals 工程技术-冶金工程

CiteScore

5.10

自引率

9.10%

发文量

审稿时长

2.2 months

期刊介绍： Oxidation of Metals is the premier source for the rapid dissemination of current research on all aspects of the science of gas-solid reactions at temperatures greater than about 400˚C, with primary focus on the high-temperature corrosion of bulk and coated systems. This authoritative bi-monthly publishes original scientific papers on kinetics, mechanisms, studies of scales from structural and morphological viewpoints, transport properties in scales, phase-boundary reactions, and much more. Articles may discuss both theoretical and experimental work related to gas-solid reactions at the surface or near-surface of a material exposed to elevated temperatures, including reactions with oxygen, nitrogen, sulfur, carbon and halogens. In addition, Oxidation of Metals publishes the results of frontier research concerned with deposit-induced attack. Review papers and short technical notes are encouraged.