Oxidation studies of anodes layer microstructures in metal supported solid oxide fuel cells

“…The investigated SOFC is an MSC type with a porous ferritic Cr-steel substrate, a Ni/YSZ anode layer and an 8YSZ electrolyte layer on top, which has been developed by Plansee SE [24,25,31]. A polished cross section of such a SOFC is shown in figure 1.…”

“…Sintering causes tensile stresses in the deposited layer due to shrinkage in the range of 5 % to 15 % of the screen-printed material on the solid substrate [8 -10]. Sputtering is beneficial to produce very dense layer [5,14,24]. The high densification can be realized due to the high energy of each impacting particle, which leads to compressive stresses in the range of several hundreds of MPa in the deposited layer [13].…”

An Analytical Model for Investigations on the Stress Distribution in Planar Solid Oxide Fuel Cells

“…The investigated SOFC is an MSC type with a porous ferritic Cr-steel substrate, a Ni/YSZ anode layer and an 8YSZ electrolyte layer on top, which has been developed by Plansee SE [24,25,31]. A polished cross section of such a SOFC is shown in figure 1.…”

“…Sintering causes tensile stresses in the deposited layer due to shrinkage in the range of 5 % to 15 % of the screen-printed material on the solid substrate [8 -10]. Sputtering is beneficial to produce very dense layer [5,14,24]. The high densification can be realized due to the high energy of each impacting particle, which leads to compressive stresses in the range of several hundreds of MPa in the deposited layer [13].…”

An Analytical Model for Investigations on the Stress Distribution in Planar Solid Oxide Fuel Cells

Fluid flow analysis to describe the permeation process along the length of the porous tube

Size dependence of warpage in solid oxide fuel cell