5 South Zhongguancun street
Center for Energy and Environmental Policy Researc
Beijing, 100081
China
Beijing Institute of Technology
Nanostructured feedstock, X2-Lu2SiO5, Plasma spraying, Environmental barrier coatings, Nanocrystalline
Lu2Si2O7, Environmental barrier coatings, Mechanical properties, Fracture Toughness, Adhesion strength
Lu2Si2O7, Environmental barrier coatings, mechanical properties, fracture toughness, adhesion strength
Environmental barrier coatings, Nanostructure, Lu2Si2O7, Spherical feedstocks, Physical properties
Environmental barrier coatings, Lu2Si2O7, Thermal conductivity, Thermal expansion coefficient, Thermal insulation performance
Environmental barrier coating, In-situ reactive, Nanostructure, Lu2SiO5, Atmospheric plasma spraying
Lu2SiO5, Lu2Si2O7, Environmental barrier coatings, Bonding strength, Thermal conductivity
Nanostructured Lu2SiO5 coatings, Environmental barrier coatings, Elastic modulus, Nanohardness, Indentation work