Corrosion of FeCrAl alloys used as fuel cladding in nuclear reactors
The safety of nuclear power plants has put forward new requirements for the corrosion
resistance of fuel cladding with the advancement of industrialization. FeCrAl alloys are …
resistance of fuel cladding with the advancement of industrialization. FeCrAl alloys are …
Advances in corrosion-resistant thermal spray coatings for renewable energy power plants: Part II—Effect of environment and outlook
High-temperature corrosion of critical components such as water walls and superheater
tubes in biomass/waste-fired boilers is a major challenge. A dense and defect-free thermal …
tubes in biomass/waste-fired boilers is a major challenge. A dense and defect-free thermal …
Understanding the surface oxide evolution of T91 ferritic-martensitic steel in supercritical water through advanced characterization
The surface oxide scale formed on T91 steel after exposure to deaerated supercritical water
(SCW) at 600° C for 100–1500 h are characterized in detail to reveal the oxide evolution …
(SCW) at 600° C for 100–1500 h are characterized in detail to reveal the oxide evolution …
Effect of molybdenum addition on oxidation behavior and secondary protection mechanism of FeCrAl coatings
R Zhou, F Wang, K Xu, Y Yuan, L Chen, M Lou… - Materials …, 2023 - Elsevier
FeCrAl alloy coatings are widely used for their excellent oxidation resistance at high
temperatures, but they can suffer from rapid material degradation due to breakaway …
temperatures, but they can suffer from rapid material degradation due to breakaway …
[HTML][HTML] Long-term corrosion behavior of FeCr (Al, Ni) alloys in O2+ H2O with KCl (s) at 600° C: Microstructural evolution after breakaway oxidation
V Ssenteza, J Eklund, S Bigdeli, T Jonsson - Corrosion Science, 2024 - Elsevier
The microstructural evolution of the oxide scales formed on FeCr (Al, Ni) alloys after
breakaway oxidation was studied in 5% O 2+ 20% H 2 O+ N 2 (Bal)+ KCl (s)/KCl (g) at 600° …
breakaway oxidation was studied in 5% O 2+ 20% H 2 O+ N 2 (Bal)+ KCl (s)/KCl (g) at 600° …
[HTML][HTML] High temperature corrosion behavior of FeCrAlSi model alloys in the presence of water vapor and KCl at 600 C–The influence of Cr content
J Eklund, I Hanif, S Bigdeli, T Jonsson - Corrosion Science, 2022 - Elsevier
The corrosion behavior of Fe (5− 20) Cr3Al2Si model alloys and the underlying mechanisms
after breakaway oxidation was investigated at 600° C. Rapid breakaway oxidation was …
after breakaway oxidation was investigated at 600° C. Rapid breakaway oxidation was …
[HTML][HTML] The long-term corrosion behavior of FeCrAl (Si) alloys after breakaway oxidation at 600 C
J Eklund, A Persdotter, V Ssenteza, T Jonsson - Corrosion Science, 2023 - Elsevier
The long-term corrosion behavior of three FeCrAl (Si) alloys has been investigated in two
environments (K 2 CO 3 and KCl+ H 2 O) at 600° C. The FeCrAl alloy experienced …
environments (K 2 CO 3 and KCl+ H 2 O) at 600° C. The FeCrAl alloy experienced …
Oxidation after breakdown of the chromium-rich scale on stainless steels at high temperature: internal oxidation
T Jonsson, S Karlsson, H Hooshyar, M Sattari, J Liske… - Oxidation of metals, 2016 - Springer
Breakaway oxidation of alloy 304L at 600° C was studied in four environments (O 2+ H 2 O+
KCl, O 2+ H 2 O+ SO 2+ KCl, H 2+ H 2 O+ Ar, O 2+ K 2 CO 3) for up to 168 h. The resulting …
KCl, O 2+ H 2 O+ SO 2+ KCl, H 2+ H 2 O+ Ar, O 2+ K 2 CO 3) for up to 168 h. The resulting …
Comparative oxidation behaviour of Fe-9Cr steel in CO2 and H2O at 550 C: Detailed analysis of the inner oxide layer
Fe-9Cr steel was oxidized in pure water vapour and in CO 2 at 550° C. In both environments
the Fe–Cr spinel layer was composed of small equiaxed grains which stoichiometry evolved …
the Fe–Cr spinel layer was composed of small equiaxed grains which stoichiometry evolved …
[HTML][HTML] Experimental and thermodynamic investigations on the chlorine-induced corrosion of HVOF thermal sprayed NiAl coatings and 304 stainless steels at 700 C
Alumina-forming β-NiAl coatings were deposited by high velocity oxy-fuel (HVOF) thermal
spraying onto 304 stainless steels for protection against chlorine induced corrosion in a …
spraying onto 304 stainless steels for protection against chlorine induced corrosion in a …