Article: Synthesis and characterisation of nano powders for production of zirconia toughened alumina bioceramic implant materials Journal: International Journal of Biomedical Nanoscience and Nanotechnology (IJBNN) 2017 Vol.3 No.4 pp.320 - 334 Abstract: Zirconia toughened alumina (ZTA) is a very important bio ceramic implant material with excellent biocompatibility as an inert bone substitute material for orthopedic applications and also for dental implants. In this study, alumina (Al2O3) and yttria stabilised zirconia (YSZ) nano powders in soft agglomerate form were synthesised by co-precipitation method. Aluminium nitrate {Al(NO3)3•9H2O}, zirconium oxynitrate {ZrO(NO3)2•xH2O} and yttrium nitrate hexahydrate {Y(NO3)36H2O} were dissolved in distilled water. NaOH solution was added as precipitant. The solution was turned into gel by mixing on hot plate magnetic stirrer at ambient temperature. In this way, Al2O3 and YSZ nano powders were synthesised together to produce the ZTA bioceramic implant material. The crystal structure, morphology and other physical properties of synthesised nano powders were investigated and characterised by scanning electron microscope (SEM) and X-ray diffraction (XRD). The composition ratio of ZrO2/Al2O3 and co-precipitation conditions had significant effect on the synthesised powder morphology and particle size and distribution in final product. The powders have a different morphology like formless and spherical and have the particle size distribution in the range of 100-900 nm. The final products have a very high relative sinter density about 91%, a small particle size of < 2 µm and homogeneity of particle and porosity distribution in microstructure. Inderscience Publishers - linking academia, business and industry through research

Title: Synthesis and characterisation of nano powders for production of zirconia toughened alumina bioceramic implant materials

Authors: Ömer Yildiz; Merve Yilmaz

Addresses: Faculty of Engineering, Department of Metallurgical and Materials Engineering, Kocaeli University, 41380 Kocaeli, Turkey ' Faculty of Engineering, Department of Metallurgical and Materials Engineering, Kocaeli University, 41380 Kocaeli, Turkey

Abstract: Zirconia toughened alumina (ZTA) is a very important bio ceramic implant material with excellent biocompatibility as an inert bone substitute material for orthopedic applications and also for dental implants. In this study, alumina (Al₂O₃) and yttria stabilised zirconia (YSZ) nano powders in soft agglomerate form were synthesised by co-precipitation method. Aluminium nitrate {Al(NO₃)₃•9H₂O}, zirconium oxynitrate {ZrO(NO₃)₂•xH₂O} and yttrium nitrate hexahydrate {Y(NO₃)₃6H₂O} were dissolved in distilled water. NaOH solution was added as precipitant. The solution was turned into gel by mixing on hot plate magnetic stirrer at ambient temperature. In this way, Al₂O₃ and YSZ nano powders were synthesised together to produce the ZTA bioceramic implant material. The crystal structure, morphology and other physical properties of synthesised nano powders were investigated and characterised by scanning electron microscope (SEM) and X-ray diffraction (XRD). The composition ratio of ZrO₂/Al₂O₃ and co-precipitation conditions had significant effect on the synthesised powder morphology and particle size and distribution in final product. The powders have a different morphology like formless and spherical and have the particle size distribution in the range of 100-900 nm. The final products have a very high relative sinter density about 91%, a small particle size of < 2 µm and homogeneity of particle and porosity distribution in microstructure.

Keywords: zirconia toughened alumina; ZTA; bioceramic implant materials; co-precipitation; nano powders.

DOI: 10.1504/IJBNN.2017.085446

International Journal of Biomedical Nanoscience and Nanotechnology, 2017 Vol.3 No.4, pp.320 - 334

Received: 04 Mar 2016
Accepted: 12 Oct 2016
Published online: 26 Jul 2017 *

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Title: Synthesis and characterisation of nano powders for production of zirconia toughened alumina bioceramic implant materials

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