Oxidation of Alloy X-750 with Low Iron Content in Simulated BWR Environment
Journal article, 2023

This paper presents an investigation of the oxidation of Alloy X-750 containing 5 wt% iron in a simulated boiling water reactor (BWR) environment. The specimens were exposed by a water jet (10 m/s) at 286 degrees C for durations ranging from 2 to 840 h, and the development of the oxide microstructure was mainly studied using electron microscopy. The results showed that the oxide scale consists of blocky crystals of trevorite on top of a porous inner layer rich in Ni and Cr. After the longest exposure time, the trevorite crystals completely covered the specimen surface. The study further revealed that the rate at which the oxide grew and the metal dissolved both decreased with time, and the metal thinning process appeared to be sub-parabolic. Given the significant variation in iron content in the X-750 specification, the influence of this element on the material's corrosion performance in BWR was examined by comparing the results from this investigation with those from previous work on material containing 8 wt% Fe. The study demonstrates that the oxide growth, metal dissolution and metal thinning were slower in the material with a higher iron content, indicating the importance of this element in limiting the degradation of Alloy X-750 in BWR environments.

oxidation

spacer

boiling water reactor

autoclave corrosion testing

Author

Silvia Tuzi

Materials Microstructure

Marta Krystyna Stiller

Chalmers, Physics, Microstructure Physics

Mattias Thuvander

Chalmers, Physics, Microstructure Physics

JOURNAL OF NUCLEAR ENGINEERING

2673-4362 (eISSN)

Vol. 4 4 711-722

Subject Categories

Materials Chemistry

Metallurgy and Metallic Materials

DOI

10.3390/jne4040044

More information

Latest update

4/19/2024