With the reduction of solid oxide fuel cell (SOFC) operating temperature to the range of 600
C–800 C, Cr-containing ferritic alloys have become the preferred interconnect material …

Steel substrates used in high-pressure applications or when subjected to extreme
environments have the drawback of corroding and eroding. Extensile studies have been …

The xCr-MnCo dual-structured coating was proposed on SUS430 steel to achieve high
corrosion resistance and conductivity. The results show that Cr barrier layer (x) thickness …

Long-term electrical resistance tests were performed to evaluate the performance of AISI
441 ferritic stainless steel coated with a Mn–Co spinel protection layer as a candidate …

The effects of simultaneous lanthanum and nickel addition on the oxidation behavior and
area-specific resistance (ASR) of stainless steels for fuelcell interconnects were …

Buckling damage and spallation during oxidation are prime challenges in electroplated Cu–
Mn oxide spinel coatings prepared for SOFC interconnects.(Cu, Mn) 3 O 4 spinel coating is …

Ceramic protective coatings applied to metallic interconnects play a vital role in solid oxide
cells (SOCs) preventing interconnect degradation. In this study, uniform, dense, and crack …

An AISI 430 stainless steel was coated by Mn-Co spinel using a slurry method. Pre-oxidation
before the coating helped reduce the oxidation rate of the coated steel at 800° C in O 2-5 …

AISI 441 coated with a double layer coating of 10 nm cerium (inner layer) and 630 nm cobalt
was investigated and in addition the uncoated material was exposed for comparison. The …

A Ni/NiFe 2 dual-layer coating is deposited on 50-h pre-oxidized SUS 430 steel by
magnetron sputtering for solid oxide fuel cell (SOFC) interconnects application, followed by …