Al2O3/ZrO2 composites are indicated to play structural functions inside the organism due to their mechanical qualities, being able to be optimized by means of the attainment of a layer of bioactive material. The biomimetic method considers the attainment of this layer using a synthetic solution that simulates the body fluid. However, this does not prevent that these materials in the body interfere with the defense mechanism, besides influence in the necessary doses of antibiotics. A way of prevention and treatment of bacterial infections is the use of silver salts, in this case being incorporated to the coating. The present work optimized the processing of zirconia-toughened alumina (ZTA) composites with bioactive and bacterial characteristics. The production method, as well as the implant coatings, had been efficient in the studied conditions and the morphology of the bioactive layer on the composite suffered alteration when immersed in the AgNO3 solution, with the formation of silver phosphate.
Al2O3; ZrO2; composite; biomimetic coating; AgNO3