Progress in metal corrosion mechanism and protective coating technology for interconnect and metal support of solid oxide cells
J Mao, E Wang, H Wang, M Ouyang, Y Chen… - … and Sustainable Energy …, 2023 - Elsevier
Solid oxide cell (SOC) is an important technology for hydrogen energy utilization. Durability
and reliability of metal components including interconnect and metal support of metal …
and reliability of metal components including interconnect and metal support of metal …
The oxidation behaviour of metals and alloys at high temperatures in atmospheres containing water vapour: A review
SRJ Saunders, M Monteiro, F Rizzo - Progress in materials science, 2008 - Elsevier
The kinetics of oxide formation in the presence of water vapour are discussed and compared
with oxidation in dry atmospheres. The main protective oxide systems are considered, ie …
with oxidation in dry atmospheres. The main protective oxide systems are considered, ie …
Chromium vaporization from high-temperature alloys: I. Chromia-forming steels and the influence of outer oxide layers
M Stanislowski, E Wessel, K Hilpert… - Journal of the …, 2007 - iopscience.iop.org
The vaporization of chromium species from chromia scales limits the applicability of chromia-
forming steels at high temperatures and is one of the major reasons for degradation in the …
forming steels at high temperatures and is one of the major reasons for degradation in the …
The effect of water vapor on selective oxidation of Fe–Cr alloys
Abstract Binary Fe–Cr alloys containing 10 and 20 mass% Cr were studied with respect to
isothermal oxidation behavior at 900 and 1,050° C in Ar–20% O 2, Ar–7% H 2 O and Ar–4 …
isothermal oxidation behavior at 900 and 1,050° C in Ar–20% O 2, Ar–7% H 2 O and Ar–4 …
Microstructural understanding of the oxidation of an austenitic stainless steel in high-temperature steam through advanced characterization
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 …
vapour than in dry oxygen. Due to the difficulties in obtaining necessary experimental scale …
Oxidation of a Fe–18Cr–8Ni austenitic stainless steel at 850 C in O2: Microstructure evolution during breakaway oxidation
A Col, V Parry, C Pascal - Corrosion Science, 2017 - Elsevier
Oxidation tests of AISI 304L in breakaway conditions (850° C in O 2) were performed up to
312 h. The evolution of the oxidation affected zone microstructure was investigated using a …
312 h. The evolution of the oxidation affected zone microstructure was investigated using a …
[HTML][HTML] Enhanced high-temperature oxidation resistance of low-cost Fe–Cr–Ni medium entropy alloy by Ce-adulterated
X Du, X Ma, X Ding, W Zhang, Y He - Journal of Materials Research and …, 2022 - Elsevier
Medium-entropy alloys (MEAs) and high-entropy alloys (HEAs) are good candidates for high-
temperature applications, taking advantage of their exceptional thermal stability. However …
temperature applications, taking advantage of their exceptional thermal stability. However …
Enhanced internal oxidation as trigger for breakaway oxidation of Fe–Cr alloys in gases containing water vapor
Binary Fe–Cr alloys were studied with respect to isothermal oxidation behavior at 900° C in
Ar–O2, Ar–H2O and Ar–H2–H2O gas mixtures. Chromium in solution exhibits a higher …
Ar–O2, Ar–H2O and Ar–H2–H2O gas mixtures. Chromium in solution exhibits a higher …
The Effects of KCl, K2SO4 and K2CO3 on the High Temperature Corrosion of a 304-Type Austenitic Stainless Steel
J Pettersson, N Folkeson, LG Johansson… - Oxidation of metals, 2011 - Springer
The oxidation of 304-type (Fe18Cr10Ni) austenitic stainless steel was investigated at 500
and 600° C in 5% O 2+ 40% H 2 O. Prior to exposure the samples were sprayed with KCl, K …
and 600° C in 5% O 2+ 40% H 2 O. Prior to exposure the samples were sprayed with KCl, K …
[HTML][HTML] High-temperature oxidation behavior of additively manufactured IN625: Effect of microstructure and grain size
High-temperature oxidation of additively manufactured (AM) Ni-base alloy IN625 has been
studied in air and Ar-5% H 2-3% H 2 O at 900-1000° C. AM material is found to oxidize faster …
studied in air and Ar-5% H 2-3% H 2 O at 900-1000° C. AM material is found to oxidize faster …