Add to ORKGThe ferritic stainless steel Crofer 22 APU is attractive for the use as interconnects in solid oxide fuel cell stacks. The oxidation rate of this alloy in air at 800 °C was reduced by pre-oxidation at higher temperatures in either air or N2-9%H2-1%H2O. Conversely, the oxidation rate increased when the alloy grain size was increased by heat-treating in H2 (pO2 ∼ 10−21 atm). In all cases the scale formed on Crofer 22 APU consisted of an outer (Mn,Cr)3O4 layer, an inner Cr2O3 layer and sub-scale MnCr2O4 nodules that preferentially formed at alloy grain boundaries
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...
In recent years high Cr ferritic steels such as Crofer 22 APU became the most widespread constructio...
Low-temperature-sintered MnCo2O4-MnO2 coatings have been prepared on pre-oxidized SUS430 ferritic al...
The Laves phase strengthened ferritic steel Crofer 22 H has recently been proposed as construction m...
The oxidation of Crofer 22 APU was studied under simulated SOFC interconnection operating conditions...
The high-Cr, Laves phase strengthened ferritic steel, Crofer 22 H, has recently been proposed as con...
The oxidation behavior of a number of commercially available ferritic and austenitic steels was test...
One of the candidates for metallic interconnects of solid oxide fuel cells is a ferritic stainless s...
Fuel cells convert energy that is stored in a fuel to electricity and heat, and they do so with a hi...
The oxide growth and thermal degradation characteristics of three SOFC interconnector alloys have be...
Ferritic stainless steel has become a promising material for metallic interconnects for solid oxide ...
<p style="margin: 0in 0in 0pt; line-height: 200%" class="MsoNormal"><font face="Times New Roman" siz...
This work is on the understanding of the oxidation mechanism of Fe-Cr alloys, the Crofer 22 APU allo...
In recent years high Cr ferritic steels such as Crofer 22 APU became the most widespread constructio...
The implementation of improved electrolyte materials have led to modern solid oxide fuel cells (SOFC...
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...
In recent years high Cr ferritic steels such as Crofer 22 APU became the most widespread constructio...
Low-temperature-sintered MnCo2O4-MnO2 coatings have been prepared on pre-oxidized SUS430 ferritic al...
The Laves phase strengthened ferritic steel Crofer 22 H has recently been proposed as construction m...
The oxidation of Crofer 22 APU was studied under simulated SOFC interconnection operating conditions...
The high-Cr, Laves phase strengthened ferritic steel, Crofer 22 H, has recently been proposed as con...
The oxidation behavior of a number of commercially available ferritic and austenitic steels was test...
One of the candidates for metallic interconnects of solid oxide fuel cells is a ferritic stainless s...
Fuel cells convert energy that is stored in a fuel to electricity and heat, and they do so with a hi...
The oxide growth and thermal degradation characteristics of three SOFC interconnector alloys have be...
Ferritic stainless steel has become a promising material for metallic interconnects for solid oxide ...
<p style="margin: 0in 0in 0pt; line-height: 200%" class="MsoNormal"><font face="Times New Roman" siz...
This work is on the understanding of the oxidation mechanism of Fe-Cr alloys, the Crofer 22 APU allo...
In recent years high Cr ferritic steels such as Crofer 22 APU became the most widespread constructio...
The implementation of improved electrolyte materials have led to modern solid oxide fuel cells (SOFC...
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...
In recent years high Cr ferritic steels such as Crofer 22 APU became the most widespread constructio...
Low-temperature-sintered MnCo2O4-MnO2 coatings have been prepared on pre-oxidized SUS430 ferritic al...