Assessment of Coating Zirconium Implant Material with Nanoparticles of Faujasite
Main Article Content
Abstract
Materials and methods: 30 circular disks produced from ZrO2, then each group is classified into 10 control groups, 10 coated groups with 3% Faujasite, and 10 coated groups with 7% faujasite by electro-spun tool to study variable properties in hardness and water contact angle of implant materials.
Results: This study stated the high hardness in 7% of faujasite concentration for ZrO2, in addition, the contact angle decreased gradually until reach 0 ᵒ in 7% concentration of faujasite with ZrO2
Conclusion: Water contact angle (WCA) declined till disappeared in (7% wt.) of faujasite coated with the ZrO2 group, also in the same group the microhardness became high compared with other groups due to alteration in surface morphology of substrate, and properties of coated material.
Downloads
Article Details
Issue
Section
This work is licensed under a Creative Commons Attribution 4.0 International License.
Licenses and Copyright
The following policy applies in The Journal of Baghdad College of Dentistry (JBCD):
# JBCD applies the Creative Commons Attribution (CC BY) license to articles and other works we publish. If you submit your paper for publication by JBCD, you agree to have the CC BY license applied to your work. Under this Open Access license, you as the author agree that anyone can reuse your article in whole or part for any purpose, for free, even for commercial purposes. Anyone may copy, distribute, or reuse the content as long as the author and original source are properly cited. This facilitates freedom in re-use and also ensures that JBCD content can be mined without barriers for the needs of research.
# If your manuscript contains content such as photos, images, figures, tables, audio files, videos, etc., that you or your co-authors do not own, we will require you to provide us with proof that the owner of that content (a) has given you written permission to use it, and (b) has approved of the CC BY license being applied to their content. We provide a form you can use to ask for and obtain permission from the owner. If you do not have owner permission, we will ask you to remove that content and/or replace it with other content that you own or have such permission to use.Don't assume that you can use any content you find on the Internet, or that the content is fair game just because it isn't clear who the owner is or what license applies.
# Many authors assume that if they previously published a paper through another publisher, they own the rights to that content and they can freely use that content in their paper, but that’s not necessarily the case, it depends on the license that covers the other paper. Some publishers allow free and unrestricted re-use of article content they own, such as under the CC BY license. Other publishers use licenses that allow re-use only if the same license is applied by the person or publisher re-using the content. If the paper was published under a CC BY license or another license that allows free and unrestricted use, you may use the content in your JBCD paper provided that you give proper attribution, as explained above.If the content was published under a more restrictive license, you must ascertain what rights you have under that license. At a minimum, review the license to make sure you can use the content. Contact that JBCD if you have any questions about the license. If the license does not permit you to use the content in a paper that will be covered by an unrestricted license, you must obtain written permission from the publisher to use the content in your JBCD paper. Please do not include any content in your JBCD paper which you do not have rights to use, and always give proper attribution.
# If any relevant accompanying data is submitted to repositories with stated licensing policies, the policies should not be more restrictive than CC BY.
# JBCD reserves the right to remove any photos, captures, images, figures, tables, illustrations, audio and video files, and the like, from any paper, whether before or after publication, if we have reason to believe that the content was included in your paper without permission from the owner of the content.
How to Cite
References
Safi IN, Hussein BMA, Al Shammari AM, et al. Implementation and characterization of coating pure titanium dental implant with sintered β-TCP by using Nd: YAG laser. Saudi Dent J. 2019; 31: 242-50.
Kim KT, Eo MY, Nguyen TTH, et al. General review of titanium toxicity. Int J Implant Dent. 2019 ; 5: 10 .
Burakov AE, Galunin E V., Burakova I V., et al. Adsorption of heavy metals on conventional and nanostructured materials for wastewater treatment purposes: A review, Ecotoxicology and Environmental Safety. Academic Press; 2018; 148: .702–712.
Zhang Y, Lawn BR. Novel Zirconia Materials in Dentistry. J Dent Res. 2018 ;97: 140-147
Pieger S, Salman A, Bidra AS. Clinical outcomes of lithium disilicate single crowns and partial fixed dental prostheses: A systematic review, Mosby Inc.; 2014; 112: p. 22–30.
Shao H, Fang J, Wang H, et al. Effect of electrospinning parameters and polymer concentrations on mechanical-to-electrical energy conversion of randomly-oriented electrospun poly(vinylidene fluoride) nanofiber mats. RSC Adv. 2015; 5: 14345-50.
Rusli MSIC, Hassan MI, Sultana N, et al. Characterization of PCL/zeolite electrospun membrane for the removal of silver in drinking water. J Teknol. 2017; 79:89–95.
Safi IN, Hussein BMA, Al-Shammari AM. Testing and characterization of sintered β-tricalcium phosphate coat upon zirconia dental implant using Nd: YAG laser. J Laser Appl. 2019;31:032002-13.
Anis SF, Hashaikeh R. Electrospun zeolite-Y fibers: Fabrication and morphology analysis. Microporous Mesoporous Mater. 2016; 1:78–86.
Vashista M, Paul S. Correlation between full width at half maximum (FWHM) of XRD peak with residual stress on ground surfaces. Philos Mag. 2012; 92: 4194-204.
Zhu C, Lv Y, Qian C, et al. Microstructures, mechanical, and biological properties of a novel Ti-6V-4V/zinc surface nanocomposite prepared by friction stir processing. Int J Nanomedicine 2018;13:1881-98.
Zahmakiran M, Özkar S. Zeolite confined nanostructured dinuclear ruthenium clusters: Preparation, characterization and catalytic properties in the aerobic oxidation of alcohols under mild conditions. J Mater Chem. 2009; 19 :7112-8.
Prasopdee T, Sinthuvanich C, Chollakup R, et al. The albumin/starch scaffold and its biocompatibility with living cells. Mater Today Commun. 2021; 2 7: 102164.
Davarpan R, Rafienia M, Salehi Rozve H, et al. Fabrication and characterization of electrospun poly lactic-co-glycolic acid/zeolite nanocomposite scaffolds using bone tissue engineering. J Bioact Compat Polym. 2018; 33:63–78.
Lin SC, Lin WC, Hu TC, et al. Evaluation of the Bonding Strength between Various Dental Zirconia Models and Human Teeth for Dental Posts through In Vitro Aging Tests. Coatings 2021; Vol 11, Page 1017.
Song N, Wang Z, Xing Y, et al. Evaluation of phase transformation and mechanical properties of metastable Yttria-Stabilized Zirconia by nanoindentation. Materials (Basel). 2019; 12: 1677.