Affiliation:
1. Al-Nahrain University
2. The University of Karkh for Science
3. Alsalam University College
Abstract
This study focused on the production of bioactive pure cordierite ceramic and the evaluation of its bioactivity by immersing it in simulated bodily fluid (SBF) and coating it on CP-Ti utilizing the dip coating Procedure. Cordierite is created by chemical coprecipitation, which involves combining Cordierite gel with a water-based sol-gel composed of Alumina Al2O3, magnesium oxide MgO, and silicon oxide SiO2. They used a hydraulic press to form cordierite into a cylindrical shape with a pressure of 4 bar and a holding time of 30 minutes at this pressure. Firing presses reach temperatures of 1250 Co and have a holding time of 2 hours. A Field Emission Scanning Electron Microscope (FESEM) was used to examine the microstructure, which revealed a homogenous distribution of the compounds with negligible porosities. The phase transitions that cur during the sintering Process is studied using X-ray diffraction (XRD). The structural investigation of specimens revealed the formation of the cordierite phase at 1250 Co, as well as the development of cristobalite, spinel, protoestatite, and corundum with cordierite phase. The dip coating Procedure was utilized to cover commercial pure titanium (CP-Ti) samples with cordierite powder. CP and Tafel exploration tests show that coated CP-Ti has superior passivation than uncoated Substrate. By comparing the findings of uncoated and coated CP-Ti, this paper concludes that the cordierite system acts as a good passivation layer.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference29 articles.
1. M. Valášková, Clays, Clay Minerals and Cordierite Ceramics-A Review, Ceramics – Silikáty 59 (2015) 331-340.
2. C. Ghitulica, E. Andronescu, O. Nicola, A. Dicea, and M. Birsan, Preparation and Characterization of Cordierite Powders, Journal of the European Ceramic Society ,27 (2007) 711–713.
3. B. Tang, Y. Fang, S. Zhang, H. Ning, and C. Jing, Preparation and Characterization of Cordierite Powders by Water-Based Sol-Gel Method', Indian Journal of Engineering and Materials Sciences, 18 (2011) 221–226.
4. H. S. Potdar et al., A Simple Chemical Co-Precipitation/Calcination Route for the Synthesis of Simulated Synroc-B and Synroc-C Powders, Materials Chemistry and Physics, 123 (2010) 695–699.
5. Q. Hou, X. Luo, X. Liu, and Z. Xie, Preparation of Cordierite Powder by Chemical Coprecipitation–Rotation Evaporation and Solid Reaction Sintering, Journal of the Australian Ceramic Society, 56 (2020) 1575–1582.
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