Progress in solid oxide fuel cells
This work provides a collection of current research papers including valuable insights on materials-related aspects of solid-oxide fuel cells current status, processing and fabrication, various electrolytes, anodes, and cathodes, ceramic/metal interconnects, seal materials, mechanical properties, characterization, modeling, fuel reforming, component materials, materials processing, performance, stability, and more.
38 pages matching shrinkage in this book
Results 1-3 of 38
What people are saying - Write a review
We haven't found any reviews in the usual places.
N Q Minh
Worldwide SOFC Technology Overview and Benchmark
Ceramic Fuel Cells for Stationary and Mobile Applications
47 other sections not shown
alumina American Ceramic Society anode anode material behavior cathode cell performance ceramic fuel cells cermet chemical chromite chromium coefficient components composite conductor crack decrease diffusion doped elastic moduli electrical conductivity electrochemical electrode energy fabrication Figure film fraction of reduced fracture toughness fuel cells SOFCs function glass glass-ceramic high temperature hydrogen increase interconnect interface ionic ionic conductivity LaCrO LaMnO lanthanum layer measured mechanical metallic mica microstructure nickel NiO-YSZ operating temperature Oxide Fuel Cells oxygen particles perovskite phase plasma sprayed pore former porosity porous power density properties reaction reduced NiO resistance samples screen-printing sealant seals shown in Fig shrinkage sintering SOFC SOFC stacks Solid Electrolyte Solid Oxide Fuel Solid State Ionics solid-oxide fuel cells specimens stability steel strength stress structure substrate surface Technology thermal cycles thermal expansion thickness voltage YSZ electrolyte zirconia