In the late 1980s and early 1990s a wide range of refractory oxide materials were tested as coatings on si based ceramics to provide protection from hot corrosion.
Current status of environmental barrier coatings for si based ceramics.
In this study yb 2 si 2 o 7 was selected as an environmental barrier coating ebc with improved high temperature chemical stability to combat the disadvantages of si based non oxide ceramics.
However a protective coating and environmental barrier coating ebc are necessary to prevent the oxidation of the carbon and the reaction of the formed silica scale with water vapor.
A silicon bond coat an intermediate mullite 3al 2 o 3 sio2 or mullite sas 1 x.
2 shows the change in the temperature capability of ceramic matrix composites with ebcs.
In the past few decades ebc s have been used as a protective layer for si based non oxide ceramics substrate that inhibits the corrosion in the presence of water vapor and molten salt.
Current state of the art environmental barrier coatings ebcs for si based ceramics consist of three layers.
Cross section of mullite cas bsas coated sic sic after 200h at 1225oc with 1h cycles in 90 h2o balance o2.
Currently plasma sprayed external environmental barrier coatings ebcs are the most promising approach.
Advanced environmental barrier coatings ebcs are being developed for next generation gas turbine engines to protect engine hot section sic based lightweight components in the harsh operating combustion environments and extend component lifetimes.
A novel high entropy material yb 0 2 y 0 2 lu 0 2 sc 0 2 gd 0 2 2 si 2 o 7 5re 0 2 2 si 2 o 7 was prepared by the sol gel method and investigated as a promising environmental barrier coating ebc for sic based composites the results of x ray diffraction and transmission electron microscopy indicated that rare earth elements were distributed homogeneously in the single monoclinic phase.
Current ebc systems use multiple layers each serving unique requirements.
The earlier ebcs consist of a mullite bond layer and an yttrium stabilized zirconia ysz top coating.
The current work considers a multi layered barium strontium.
The goal was to fabricate an yb 2 si 2 o 7 coating layer with high oxidation resistance at high temperatures and a thermal expansion coefficient similar.
Thus environmental barrier coatings ebcs are necessary for silicon based ceramics which can protect the hot section components from the corrosion of high temperature water vapor 12 13.
Carbon fiber reinforced silicon carbide composites c sic are promising materials for high temperature light weight structural components.