Experiments and modeling of rapid solidification of plasma-sprayed yttria-stabilized zirconia

“…acetylacetone undergoes alcoholysis in n-butanol to produce butyl acetate and acetone, which consumes acetylacetone and makes the reaction shown in Eq. (2) moving to the left, and release Zr 4+ ions. If the concentration of Zr 4+ reaches a critical value, Zr 4+ hydrolyzed to form amorphous solid nanospheres.…”

“…At atmospheric pressure, ZrO 2 has three polymorphs-cubic, tetragonal, and monoclinic-depending on the temperature [2]. If larger cations of lower valence (e.g., Y 3+ ) are substituted for Zr 4+ , the hightemperature structures (cubic and tetragonal) can be stabilized at room temperature because the substitution introduces oxygen vacancies which compensate for the difference in charge [3].…”

Template-free solvothermal synthesis of size-controlled yttria-stabilized-zirconia hollow spheres

“…acetylacetone undergoes alcoholysis in n-butanol to produce butyl acetate and acetone, which consumes acetylacetone and makes the reaction shown in Eq. (2) moving to the left, and release Zr 4+ ions. If the concentration of Zr 4+ reaches a critical value, Zr 4+ hydrolyzed to form amorphous solid nanospheres.…”

“…At atmospheric pressure, ZrO 2 has three polymorphs-cubic, tetragonal, and monoclinic-depending on the temperature [2]. If larger cations of lower valence (e.g., Y 3+ ) are substituted for Zr 4+ , the hightemperature structures (cubic and tetragonal) can be stabilized at room temperature because the substitution introduces oxygen vacancies which compensate for the difference in charge [3].…”

Template-free solvothermal synthesis of size-controlled yttria-stabilized-zirconia hollow spheres

“…The main aim is to reduce the thermal conductivity of engine components by using YSZ material prepared by the atmospheric plasma spray (APS) method [1,2]. The spraying parameters and deposition efficiency in the plasma process produce a variety of microscopic defects, with pores and cracks appearing in the coatings [3][4][5]. These microscopic defects have great influence on the thermal conductivity of TBCs [6].…”

Effect of Microstructure on the Thermal Conductivity of Plasma Sprayed Y2O3 Stabilized Zirconia (8% YSZ)

“…1 The coatings have a typical lamellar structure with massive pores and cracks due to successive impinging and solidification of molten or semi-molten droplets during plasma spraying. [2][3][4] Moreover, these microstructure characteristics have strong influences on the thermal conductivity of coatings. 5 It is a complex and primary task to tailor the microstructure towards achieving expectant and reliable properties for full utilization of YSZ coatings.…”

Melting index characterization and thermal conductivity model of plasma sprayed YSZ coatings