The effects of metal nanoparticles incorporation on the mechanical properties of denture base acrylic resin
Year 2023,
Volume: 57 Issue: 1, 36 - 40, 31.01.2023
Secil Ozkan Ata
,
Canan Akay
,
Emre Mumcu
Abstract
Purpose: The aim of this study was to examine the flexural strength of acrylic resin base material incorporated with iron, copper, and titanium nanoparticles. Materials and Methods: Seventy bars of samples (65x10x2.5 mm3 ) were divided into seven groups. Acrylic samples were prepared according to the manufacturer’s instructions. Fe2O3, CuO and TiO2 nanoparticles were manually added in a proportion of 1wt% and 3wt% to the heat-polymerized acrylic resin. The Universal Testing Machine was used for 3-point flexural test of 5 mm/min force. ANOVA and Weibull analyses were used for the statistical analyses. Results: A statistical difference was found between the nanoparticle-added group and the control group. The highest mean value was observed for the 1wt % TiO2 added group, (84.99 MPa) and the lowest value was for the 3wt% CuO added group. (71.32MPa) (p<0,001) The 3wt % Fe2O3 and CuO added groups showed lower values than the control group. Conclusion: The incorporation of TiO2 nanoparticles into acrylic resin in a proportion of 1wt% increased the flexural strength values of the resins. Within the limitations, the nanoparticle addition to acrylic resins could improve the mechanical properties; however, when the percentage of nanoparticle addition increases, the flexural strength values of the acrylic resins decrease.
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Year 2023,
Volume: 57 Issue: 1, 36 - 40, 31.01.2023
Secil Ozkan Ata
,
Canan Akay
,
Emre Mumcu
References
- 1. Vikram S, Gopi Chander N. Effect of zinc oxide nanoparticles on the flexural strength
of polymethylmethacrylate denture base resin. Eur Oral Res 2020;54:1-5.
- 2. Salman TA, Khalaf HA. The influence of adding of modified ZrO2-TiO2 nanoparticles on certain physical and mechanical properties of heat polymerized acrylic resin. J Bagh College Dentistry 2015;27:33-9.
3. Jasim BS, Ismail IJ. The effect of silanized alumina nano-fillers addition on some physical and mechanical properties of heat cured polymethyl methacrylate denture base material. J Bagh College of Dentistry 2014;26:18-23.
- 4. Kim SH, Watts DC. The effect of reinforcement with woven E-glass fibers on the impact strength of complete dentures fabricated with high-impact acrylic resin. J Prosthet Dent 2004;91:274-280.
- 5. Jagger DC, Harrison A. The effect of chopped poly(methyl methacrylate) fibers on some properties of acrylic resin denture base material. Int J Prosthodont 1999;12:542-6.
- 6. Oyar P, Sana FA, Nasseri B, Durkan R. Effect of green gold nanoparticles synthesized with plant on the flexural strength of heat-polymerized acrylic resin. Niger J Clin Pract 2018;21:1291-5.
- 7. Moslehifard E, Robati Anaraki M, Shirkavand S. Effect of adding TiO2 nanoparticles on the SEM morphology and mechanical properties of conventional heat-cured acrylic resin. J Dent Res Dent Clin Dent Prospects 2019;13:234-40.
- 8. Sodagar A, Akhoundi MSA, Bahador A, Jalali YF, Behzadi Z, Elhaminejad F, Mirhashemi AH. Effect of TiO2 nanoparticles incorporation on antibacterial properties and shear bond strength of dental composite used in Orthodontics. Dental Press J Orthod 2017;22:67-74.
- 9. Agnihotri R, Gaur S, Albin S. Nanometals in Dentistry: Applications and Toxicological Implications-a Systematic Review. Biol Trace Elem Res 2020;197:70-88.
- 10. International Organization for Standardization (CH). International Standard ISO 1567, Dentistry-Denture base polymers. Geneve: Washington: International Organization for Standardization; 1999.
- 11. Sodagar A, Bahador A, Khalil S, Shahroudi AS, Kassaee MZ. The effect of TiO2 and SiO2 nanoparticles on flexural strength of poly (methyl methacrylate) acrylic resins. J Prosthodont Res 2013;57:15-19.
- 12. Shi JM, Bao YZ, Huang ZM, Weng ZX. Preparation of Poly (Methyl Methacrylate)/ Nanometer Calcium Carbonate Composite by in Situ Emulsion Polymerization. Zhejiang Univ Sci. 2004;5,709-13.
- 13. Burunkov, J, Denisiuk I, Vorzobova N, Daroczi L, Hegedus Cs, Charnovych S, Kokenyesi S. Fabrication and characterization of gold/acrylic polymer nanocomposites. Eur Polymer J 2013;49:3072‑7.
- 14. Ellakwa AE, Morsy MA, El‑Sheikh AM. Effect of aluminum oxide addition on the flexural strength and thermal diffusivity of heat‑polymerized acrylic resin. J Prosthodont 2008;17:439‑44.
- 15. Xia Y, Zhang F, Xie H, Gu N. Nanoparticle‑reinforced resin‑based dental composites. J Dent 2008;36:450‑5.
- 16. Fujishima M, Takatori H, Tada H. Interfacial chemical bonding effect on the photocatalytic activity of TiO2‑SiO2 nanocoupling systems. J Colloid Interface Sci 2011;361:628‑31.
- 17. Toodehzaeim MH, Zandi H, Meshkani H, Hosseinzadeh Firouzabadi A. The Effect of CuO Nanoparticles on Antimicrobial Effects and Shear Bond Strength of Orthodontic Adhesives. J Dent Shiraz Univ Med Sci 2018;19:1-5.
- 18. Poosti M, Ramazanzadeh B, Zebarjad M, Javadzadeh P, Naderinasab M, Shakeri MT. Shear bond strength and antibacterial effects of orthodontic composite containing TiO2 nanoparticles. Eur J Orthod 2013;35:676-9.
- 19. Barbosa DB, de Souza RF, Pero AC, Marra J, Compagnoni MA. Flexural strength of acrylic resins polymerized by different cycles. J Appl Oral Sci 2007;15:424-8.
- 20. Vojdani M, Bagheri R, Khaledi AAR. Effects of Aluminum Oxide Addition on the Flexural Strength, Surface Hardness, and Roughness of Heat-Polymerized Acrylic Resin. Journal of Dental Sciences 2012;7:238-44.
- 21. Lee SY, Lai YL, Hsu TS Influence of Polymerization Conditions on Monomer Elution and Microhardness of Auto-polymerized Polymethyl Methacrylate Resin. European Journal of Oral Sciences 2002;110:179-83.
- 22. Asopa V, Suresh S, Khandelwal M, Sharma V, Asopa SS, Kaira LS. A Comparative Evaluation of Properties of Zirconia Reinforced High Impact Acrylic Resin with That of High Impact Acrylic Resin. The Saudi Journal for Dental Research 2015;6:146-51.
- 23. Viwattanatipa N, Jermwiwatkul W, Chintavalakorn R, Kanchanavasita W. Weibull analysis of bond strength of orthodontic buccal tubes bonded to resin composite surface with various techniques. Orthodontic Waves 2010;69:66-74.