The harsh work environments caused by high-temperature, high-pressure water, especially
the presence of aggressive species such as oxygen and salts, makes equipment corrosion …

The corrosion characteristics of a novel alumina-forming austenitic (AFA) steel exposed to
600℃/25 MPa deaerated supercritical water (SCW) were investigated. The results show that …

In this study, corrosion tests were performed on Cr-coated Alloy 800 H in 500° C
supercritical water, containing 6000 mg∙ L− 1 oxygen, for 500 h. After exposure, the structure …

The microstructure and microchemistry of the oxide scales formed on Fe-21Cr-32Ni and Fe-
17Cr-9Ni steels after exposure to deaerated high-temperature high-pressure steam at 600° …

This study investigates the oxidation behavior of several stainless steels and nickel-based
superalloys exposed to supercritical water at 800° C for 12 h. Characterization of the …

It is well-known that steels always oxidize faster in the environments containing water
vapour than in dry oxygen. Due to the difficulties in obtaining necessary experimental scale …

The initial corrosion behaviour of austenitic TP347H exposed to supercritical water was
investigated. The early oxidation can be categorized into three stages (rapid oxidation …

Abstract Austenitic stainless steel 08Cr18Ni10Ti is widely used in WWER reactor. Therefore,
it was considered one of the prospective materials for supercritical water-cooled reactors. In …

To obtain higher electrical conductivity and lower area specific resistance (ASR), the 10% Fe
doped Ni–Co (NCF) alloy was prepared on SUS 430 steel substrate by electroplating for …

Oxidation resistance of thermo-mechanical processed stainless steel 316L was studied. The
samples were oxidized in supercritical water with 150 ppb inlet-dissolved O 2 at 600° C and …