Effects of Nano-sized Particles on Mechanical Properties of Resin Dental Composites: A Review Article
Asian Journal of Dental Sciences,
Page 43-55
Abstract
Nanomaterials have unique physical and mechanical characteristics. The addition of nanoparticles advances the mechanical performance of polymers, because the ratio of surface area-to-volume is high. Nanoparticles are utilised to produce materials with different behaviour because of interfacial reactions. The current review compiles and discusses the available literature on the positive impact of nanoparticles on the mechanical behaviour of resin-based dental composites, in addition to the recent advancements. The effects of different types of fillers in nano-ranged size have been studied. It also presents appropriate filler quantity for the enhancement of some mechanical properties. Finally, the important role of energy dissipation mechanisms in dental composites has been emphasised.
Keywords:
- Dental composites
- nanoparticles
- nanocomposites
- mechanical properties
- energy dissipation mechanisms
How to Cite
Kundie, F., Elshereksi, N. W., & Omran, A. A. B. (2022). Effects of Nano-sized Particles on Mechanical Properties of Resin Dental Composites: A Review Article. Asian Journal of Dental Sciences, 5(4), 43-55. Retrieved from https://journalajds.com/index.php/AJDS/article/view/30190
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Powers JM, Wataha JC. Dental Materials - E-Book: Properties and Manipulation. Elsevier Health Sciences; 2015.
Khurshid Z, Zafar M, Qasim S, Shahab S, Naseem M, AbuReqaiba A. Advances in nanotechnology for restorative dentistry. Mater. 2015;8(2):717-31.
Topouzi M, Kontonasaki E, Bikiaris D, Papadopoulou L, Paraskevopoulos KM, Koidis P. Reinforcement of a PMMA resin for interim fixed prostheses with silica nanoparticles. J Mech Behav Biomed Mater. 2017;69:213-22.
Seehra M. Nanostructured materials: Fabrication to applications. BoD–Books on Demand; 2017.
Wang X, Cai Q, Zhang X, Wei Y, Xu M, Yang X, et al. Improved performance of Bis-GMA/TEGDMA dental composites by net-like structures formed from SiO2 nanofiber fillers. Mater Sci Eng: C. 2016; 59:464-70.
Pratap B, Gupta RK, Bhardwaj B, Nag M. Resin based restorative dental materials: characteristics and future perspectives. Jpn Dent Sci Rev. 2019;55(1):126-38.
Ravi RK, Alla RK, Shammas M, Devarhubli A. Dental composites-a versatile restorative material: An overview. Indian J Dent. Sci. 2013;5(5):111-5.
Alizadehgharib S, Östberg AK, Dahlgren U. Effects of the methacrylate/acrylate monomers HEMA, TEGDMA, DEGDA, and EMA on the immune system. Clin Exp Dent Res. 2017;3(6):227-34.
Jafarnia S, Valanezhad A, Odatsu T, Nesabi M, Safaee S, Abe S, et al. Comparative evaluation of three nanofilled resin-based dental composites: Cytotoxicity, surface roughness, and flexural properties. Polym Polym Compos. 2022;30.
Casamassimo PS, Fields Jr HW, McTigue DJ, Nowak A. Pediatric dentistry: infancy through adolescence, 5/e. Elsevier India; 2012;297.
Stencel R, Pakieła W, Barszczewska-Rybarek I, Żmudzki J, Kasperski J, Chladek G. Effects of Different Inorganic Fillers on Mechanical Properties and Degree of Conversion of Dental Resin Composites. Arch Metall Mater. 2018; 63(3):1361-9.
Bourbia M, Finer Y. Biochemical stability and interactions of dental resin composites and adhesives with host and bacteria in the oral cavity: A review. J Can Dent Assoc. 2018;84(i1): 1488-2159.
Emami N, Söderholm K. Young's modulus and degree of conversion of different combination of light-cure dental resins. Open Dent J. 2009;3:202-7.
Chaughule R, Raorane D, Pednekar S, Dashaputra R. Nanocomposites and Their Use in Dentistry. In: Chaughule RS, ed. Dental Applications of Nanotechnology. Mumbai, India: Springer; 2018.
Szczesio-Wlodarczyk A, Sokolowski J, Kleczewska J, Bociong K. Ageing of dental composites based on methacrylate resins—a critical review of the causes and method of assessment. Polym. 2020; 12(4):882.
Bhattacharya M, Seong W-J. Carbon Nanotube-Based Materials—Preparation, Biocompatibility, and Applications in Dentistry. In: Subramani K, Ahmed W, Hartsfield JK, eds. Nanobiomaterials in Clinical Dentistry. Waltham, USA: William Andrew Publishing; 2013.
García AH, Lozano MAM, Vila JC, Escribano AB, Galve PF. Composite resins. A review of the materials and clinical indications. Med Oral Patol Oral Cir Bucal. 2006;11(2):215-20.
Van Noort R. Introduction to Dental Materials. Elsevier Health Sciences. 2013; 74.
Puoci F. Advanced Polymers in Medicine. Springer International Publishing; 2014.
Ilie N, Hickel R. Resin composite restorative materials. Aust Dent J. 2011; 56:59-66.
Alzraikat H, Burrow M, Maghaireh G, Taha N. Nanofilled resin composite properties and clinical performance: a review. Oper Dent. 2018;43(4):E173-E90.
Souza JCM, Hotza D, Henriques B, Boccaccini AR. Nanostructured Biomaterials for Cranio-Maxillofacial and Oral Applications. Elsevier; 2018.
Zhou X, Huang X, Li M, Peng X, Wang S, Zhou X, et al. Development and status of resin composite as dental restorative materials. J Appl Polym Sci. 2019;136(44): 48180.
Kishen A. Nanotechnology in Endodontics: Current and Potential Clinical Applications. Springer International Publishing; 2015.
Kenneth J. Anusavice D, Shen C, Rawls HR. Phillips' Science of Dental Materials. 12 ed. China: Elsevier Health Sciences; 2012.
Rodríguez HA, Casanova H. Effects of Silica Nanoparticles and Silica-Zirconia Nanoclusters on Tribological Properties of Dental Resin Composites. J. Nanotechnol; 2018.
Felemban NH, Ebrahim MI. The influence of adding modified zirconium oxide-titanium dioxide nano-particles on mechanical properties of orthodontic adhesive: an in vitro study. BMC Ora Heal. 2017;17(1):1-8.
Mohseni M, Atai M, Sabet A, Beigi S. Effect of plate-like glass fillers on the mechanical properties of dental nanocomposites. Iran Polym J. 2016;25(2): 129-34.
Hasratiningsih Z, Takarini V, Cahyanto A, Faza Y, Asri L, Purwasasmita B. Hardness evaluation of PMMA reinforced with two different calcinations temperatures of ZrO2-Al2O3-SiO2 filler system. IOP Conference Series: Mater Sci Eng. IOP Publishing. 2017;012067.
Hasratiningsih Z, Cahyanto A, Takarini V, Karlina E, Djustiana N, Febrida R, et al. Basic properties of PMMA reinforced using ceramics particles of ZrO2-Al2O3-SiO2 coated with two types of coupling agents. Key Eng Mater. Trans Tech Publ. 2016; 93-8.
Saen P, Atai M, Nodehi A, Solhi L. Physical characterization of unfilled and nanofilled dental resins: Static versus dynamic mechanical properties. Dent Mater. 2016;32(8):e185-e97.
Mirjalili A, Zamanian A, Hadavi SMM. The effect of TiO2 nanotubes reinforcement on the mechanical properties and wear resistance of silica micro-filled dental composites. J. Compos. Mater. 2019; 53(23):3217-28.
Karabela MM, Sideridou ID. Synthesis and study of properties of dental resin composites with different nanosilica particles size. Dent Mater. 2011;27(8):825-35.
Matinlinna JP, Lung CYK, Tsoi JKH. Silane adhesion mechanism in dental applications and surface treatments: A review. Dent Mater. 2018;34(1):13-28.
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