In order to develop a robust alumina scale dispersed with nano-oxide particles for FeCrAl oxide dispersion strengthened (ODS) ferritic alloys, the oxidation behavior of FeCrAl ODS ferritic alloys with zirconium and excessive oxygen (Ex. O) additions was investigated at 900 degrees C in air. Zirconia incorporation into alumina scale was not observed in the Ex. O-added FeCrAl ODS alloys at 900 degrees C, instead of this, a distribution with dense Y-Zr oxide particles inside the alumina scale was found, which is expected to enhance the stability of the alumina scale during service at elevated temperatures in nuclear applications. Preexisting large Zr-enriched precipitates formed during the alloy fabrication process are incorporated into the al...
A Rapidly Solidified Powder (RSP) metallurgical FeCrAl alloy, Kanthal APMT, was exposed in dry and h...
Oxide dispersion strengthened steels are candidate materials for structural constituents in IV gener...
A major challenge in the design of oxide dispersion strengthened (ODS) FeCrAl alloys is the optimiza...
Additions of reactive elements (Y, Zr, La, Ce, Hf, etc.) modify the high temperature oxidation perfo...
Oxide-dispersed Fe-28at.%Al-2%Cr alloys were produced by a powder metallurgy technique followed by h...
Early oxide scale growth on an oxide dispersion strengthened rapidly solidified powder FeCrAl materi...
One of the major obstacles in the realization of advanced nuclear reactor concepts is the lack of ma...
FeCrAl alloys are known for their excellent oxidation resistance at temperatures as high as 1200°C. ...
The growth of oxide particles in FeCrAl-oxide dispersion strengthened steel (ODSS) considering an ac...
Abstract. This work is part of an ongoing European funded project, “SMILER”, with the aim of improvi...
Three oxide features: the thin and smooth protective oxide, reactive element (Ti-, Zr- or Y-rich) pa...
The oxidation limited lifetime of thin-walled FeCrAlY heating elements is governed by the depletion ...
In present study, Fe-22Cr-4.5Al oxide dispersion strengthened ferritic alloys were fabricated using ...
The development of the oxide scale on model Fe20Cr5Al-type alloys unmodified and containing implante...
High temperature resistant FeCrAl alloys are frequently used in high temperature applications Such a...
A Rapidly Solidified Powder (RSP) metallurgical FeCrAl alloy, Kanthal APMT, was exposed in dry and h...
Oxide dispersion strengthened steels are candidate materials for structural constituents in IV gener...
A major challenge in the design of oxide dispersion strengthened (ODS) FeCrAl alloys is the optimiza...
Additions of reactive elements (Y, Zr, La, Ce, Hf, etc.) modify the high temperature oxidation perfo...
Oxide-dispersed Fe-28at.%Al-2%Cr alloys were produced by a powder metallurgy technique followed by h...
Early oxide scale growth on an oxide dispersion strengthened rapidly solidified powder FeCrAl materi...
One of the major obstacles in the realization of advanced nuclear reactor concepts is the lack of ma...
FeCrAl alloys are known for their excellent oxidation resistance at temperatures as high as 1200°C. ...
The growth of oxide particles in FeCrAl-oxide dispersion strengthened steel (ODSS) considering an ac...
Abstract. This work is part of an ongoing European funded project, “SMILER”, with the aim of improvi...
Three oxide features: the thin and smooth protective oxide, reactive element (Ti-, Zr- or Y-rich) pa...
The oxidation limited lifetime of thin-walled FeCrAlY heating elements is governed by the depletion ...
In present study, Fe-22Cr-4.5Al oxide dispersion strengthened ferritic alloys were fabricated using ...
The development of the oxide scale on model Fe20Cr5Al-type alloys unmodified and containing implante...
High temperature resistant FeCrAl alloys are frequently used in high temperature applications Such a...
A Rapidly Solidified Powder (RSP) metallurgical FeCrAl alloy, Kanthal APMT, was exposed in dry and h...
Oxide dispersion strengthened steels are candidate materials for structural constituents in IV gener...
A major challenge in the design of oxide dispersion strengthened (ODS) FeCrAl alloys is the optimiza...