Effect of Sintering on Mechanical and Physical Properties of Plasma-Sprayed Thermal Barrier Coatings

The effect of sintering on mechanical and physical properties of free-standing plasma-sprayed ZrO2-8 wt% Y2O3 thermal barrier coatings (TBCs) was determined by annealing them at 1316 C in air. Mechanical and physical properties of the TBCs, including strength, modes I and II fracture toughness, elastic modulus, Poisson s response, density, microhardness, fractography, and phase stability, were determined at ambient temperature as a function of annealing time ranging from 0 to 500 h. All mechanical and physical properties, except for the amount of monoclinic phase, increased significantly in 5 to 100 h and then reached a plateau above 100 h. Annealing resulted in healing of microcracks and pores and in grain growth, accompanying densification of the TBC s body due to the sintering effect. However, an inevitable adverse effect also occurred such that the desired lower thermal conductivity and good expansivity, which makes the TBCs unique in thermal barrier applications, were degraded upon annealing. A model was proposed to assess and quantify all the property variables in response to annealing in a normalized scheme. Directionality of as-sprayed TBCs appeared to have an insignificant effect on their properties, as determined via fracture toughness, microhardness, and elastic modulus measurements. Choi, Sung R. and Zhu, Dong-Ming and Miller, Robert A. Glenn Research Center NASA/TM-2004-212625, E-14183 WBS 22-714-30-19 MECHANICAL PROPERTIES; SPRAYED COATINGS; PLASMA LAYERS; ZIRCONIUM OXIDES; YTTRIUM OXIDES; THERMAL CONTROL COATINGS; AMBIENT TEMPERATURE; MODULUS OF ELASTICITY; THERMAL CONDUCTIVITY; STABILITY; FRACTOGRAPHY