Research Article
Isolation and Characterization of hydroxyapatite from Giant Travelly (GT) Fish bone Waste as a Biocheramic Materials for Aplication of Implant Dental Body
@INPROCEEDINGS{10.4108/eai.18-10-2019.2289971, author={Melsiani R F Saduk and Duran Hore and Agustinus Deka Betan and Fransisko Piri Niron}, title={Isolation and Characterization of hydroxyapatite from Giant Travelly (GT) Fish bone Waste as a Biocheramic Materials for Aplication of Implant Dental Body}, proceedings={Proceedings of the 1st International Conference on Engineering, Science, and Commerce, ICESC 2019, 18-19 October 2019, Labuan Bajo, Nusa Tenggara Timur, Indonesia}, publisher={EAI}, proceedings_a={ICESC}, year={2019}, month={12}, keywords={bioceramics gt fish bone hydroxyapatite dental implants}, doi={10.4108/eai.18-10-2019.2289971} }- Melsiani R F Saduk
Duran Hore
Agustinus Deka Betan
Fransisko Piri Niron
Year: 2019
Isolation and Characterization of hydroxyapatite from Giant Travelly (GT) Fish bone Waste as a Biocheramic Materials for Aplication of Implant Dental Body
ICESC
EAI
DOI: 10.4108/eai.18-10-2019.2289971
Abstract
The use of dental implants is now wider, and has various types of dentures. Today, titanium is still the 'gold standard' for the manufacture of dental implants because of the high long-term clinical success rate. However, concerns arise from titanium metals that have caused allergic reactions and sensitivity. Therefore, the purpose of this study was to produce HA isolates that have characteristics that meet the requirements of proactive raw materials in making biochemical body implants through isolation and characterization of HA from GT fish bone waste. The planned research activities include preparation of fish bone test samples, HA characterization with FTIR, XRD, and XRF. Based on XRF analysis it was found that CaO compound had the biggest percentage which was 68,96%. FTIR analysis indicate the presence of OH groups, CO3 and PO4. And xrd analysis shows that the crystallite phase formed is hexagonal