The effect of sintering conditions on the formation of hydroxyapatite-boron nitride nanocomposites
Abstract
Being the main inorganic constitution of hard tissues (bone and teeth), calcium phosphates has been applied in medical and dental applications for hard tissue repairment. Hydroxyapatite (HAp) based ceramics are attracting attention because of their excellent osteoconductive and bioactive properties. Although having sufficient biocompatibility, HAp cannot perform the expected mechanical properties of a hard tissue. It is considered that, the production of composites by adding variety of materials to nHAp would improve mechanical properties and by controlling important parameters such as particle size and shape, particle distribution and agglomeration also affect the mechanical properties. Accordingly, in this study, nano-sized hexagonal boron nitride (hBN) having different compositional percentages was added to the nHAp to form novel composites with expected properties and the effect of sintering process on microstructure and morphological properties of sintered composites were investigated. For the structural characterization, XRD, Raman Spectroscopy and EDS were used, and for the identification of morphology and surface features, SEM, FIB and AFM analyses were conducted.
Source
NSTI: Advanced Materials - TechConnect Briefs 2015Volume
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