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Corrosion Engineering, Science and Technology
The International Journal of Corrosion Processes and Corrosion Control
Volume 53, 2018 - Issue 8
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Research Articles

Oxidation behaviour of Nimonic 263 in high-temperature supercritical water

Zhongliang ZhuElectrical & Electronic Engineering School, North China Electric Power University, Beijing, People’s Republic of China;Key Laboratory of Condition Monitoring and Control for Power Plant Equipment of Ministry of Education, North China Electric Power University, Beijing, People’s Republic of ChinaView further author information
,
Hong XuKey Laboratory of Condition Monitoring and Control for Power Plant Equipment of Ministry of Education, North China Electric Power University, Beijing, People’s Republic of ChinaView further author information
,
Hasan Izhar KhanKey Laboratory of Condition Monitoring and Control for Power Plant Equipment of Ministry of Education, North China Electric Power University, Beijing, People’s Republic of ChinaView further author information
&
Naiqiang ZhangKey Laboratory of Condition Monitoring and Control for Power Plant Equipment of Ministry of Education, North China Electric Power University, Beijing, People’s Republic of ChinaCorrespondence[email protected]
View further author information
Pages 617-624 | Received 28 May 2018, Accepted 26 Aug 2018, Published online: 10 Sep 2018
 
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ABSTRACT

The oxidation tests of the Nimonic 263 alloy exposed to deaerated supercritical water at 600–700°C under 25 MPa were carried out for up to 1000 h. Oxidation rate increased with an increase in temperature. The microstructure and phase composition of oxide scale were analysed by scanning electron microscopy/energy dispersive X-ray spectroscopy, X-ray diffraction and X-ray photoelectron spectroscopy. It can be seen that a complex oxide structure formed on the surface of Nimonic 263 including an outer layer of Ni–Fe/Ni–Cr spinel oxide, Ni/Co hydroxide and TiO2 and an inner layer of a mixture of NiCr2O4 and Cr2O3 while the innermost layer is made up of Cr2O3. The MoO3 can be observed at 600°C but disappeared with the increasing temperature. The growth mechanism of oxide scale was discussed.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported by National Natural Science Foundation of China: [Grant Number 51471069]; Natural Science Foundation of Beijing: [Grant Number 2152029]; Science and Technology Program of Beijing (Z181100005218006).

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