Laves phases with their comparably simple crystal structure are very common intermetallic
phases and can be formed from element combinations all over the periodic table resulting in …

The iron aluminides discussed here are Fe–Al-based alloys, in which the matrix consists of
the disordered bcc (Fe, Al) solid solution (A2) or the ordered intermetallic phases FeAl (B2) …

The low-cost ferritic steel grades 441 and 430 are benchmarked against the specialty grade
Crofer 22H as possible interconnect materials for intermediate temperature solid oxide fuel …

Abstract For Intermediate-Temperature SOFC, the lower operating temperature allows for a
broader range of steel grades to be used as interconnects. This work compares the …

Crofer 22 APU is ferritic stainless steel extensively used as metallic interconnect material in
Solid Oxide Fuel Cell (SOFC) applications. The interconnects are exposed to both oxidizing …

High-chromium ferritic stainless HiperFer steels were developed for high-temperature
applications in power conversion equipment. The presented research describes the …

Future, flexible thermal energy conversion systems require new, demand-optimized high-
performance materials. The Hi gh per formance Fer ritic (HiperFer) stainless steels, under …

High-temperature corrosion research will face a significant change in the near future. Up
until now, this research area was dominated by materials issues related to the use of fossil …

The do** manganese (Mn) in the ferritic Fe-Cr alloy could effectively improve its high
temperature performance when applied as metallic interconnects of solid oxide fuel cells …

Microalloying of stainless steel with reactive elements increases oxidation resistance but
makes the alloy prone to microstructural changes. XPS results reveal changes in the initial …