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The influence of light curing parameters on wear resistance of selected resin-based dental composites

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the work was to test influence of curing time and distance of the light source on wear resistance of composite dental materials. Design/methodology/approach: The following study provides an insight into factors influencing wear resistance of composite materials. Standardized samples were made of methacrylate-based material Herculite XRV and silorane-based material Filtek Silorane and were tested using two types of Light Curing Units (LCUs) – halogen and LED. The distance of light source and time of curing differed between samples. Findings: Filtek Silorane composite compared to Herculite XRV composite guarantees higher wear resistance, regardless of the used LCU type. Using LED LCU compared to halogen LCU allows to obtain higher wear resistance both for Herculite XRV and Filtek Silorane composite. The lower the distance of light source the higher the wear resistance of composite material. Research limitations/implications: Further studies will provide additional information on other properties such as compressive strength, and degree of conversion. Practical implications: This article shows important comparison between older and newer composite technology. It provides practical information on polymerization methods. Originality/value: Article shows broad spectrum of different curing methods, important to the composite material use in dentistry.
Rocznik
Strony
62--71
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
autor
  • Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
  • Pressure-Sentitive Adhesives Laboratory Institute of Chemical Organic Technology, West Pomeranian University of Technology, ul. Pulaskiego 10, 70-332 Szczecin, Poland
  • Health Care Centre, ul. Bolesława Śmiałego 28, 70-348 Szczecin, Poland
Bibliografia
  • [1] R.G. Craig, Dental Materials, J.M. Powers, R.L. Sakaguchi (Eds.), 1st Edition, Elsevier Urban & Partner, Wroclaw, 2006 (in Polish).
  • [2] K.Anusavice, C. Shen, H.R. Rawls, Phillips’ science of dental materials, 12th Edition, Elsevier Health Sciences, St. Louis, 2012.
  • [3] J. Schmidseder, Esthetic dentistry, M. Tanasiewicz (Ed.), 2nd Edition, Czelej Publishing House, Lublin, 2011 (in Polish).
  • [4] J.M. Powers, J.C. Wataha, Dental Materials, U. Kaczmarek (Ed.), 1st Edition, Elsevier Urban & Partner, Wroclaw, 2013 (in Polish).
  • [5] H. Shaw, The biocompatibility of materials used in orthodontics. Allergic reactions - diagnosis and treatment, in: A. Komorowska (Ed.), Orthodontic materials and techniques, Polish Orthodontic Society, Lublin, 2009 (in Polish).
  • [6] D.A. Terry, W. Geller, Esthetic and restorative dentistry: Material selection and technique, 2nd Edition, Quintessence Publishing, 2013.
  • [7] J.L. Ferracane, Resin composite - state of the art, Dental Materials 27/1 (2011) 29-38.
  • [8] Z. Jańczuk (Ed.), Preventive dentistry - an outline of the clinical picture. Manual for Students of dentistry, PZWL, Warsaw, 2010 (in Polish).
  • [9] C. Ganss, A. Young, A. Lussi, Tooth wear and erosion: Methodological issues in epidemiological and public health research and the future research agenda, Community Dental Health 28 (2011) 191-195.
  • [10] N. Fatima, Influence of extended light exposure curing times on the degree of conversion of resin-based pit and fissure sealant materials, The Saudi Dental Journal (in print).
  • [11] W. Świderski, Z. Czech, P. Malara, Studies on compression strength of photoreactive composite fillings cured with visible light, Chemical Industry (in print).
  • [12] I.M. Hammouda, Effect of light-curing method on wear and hardness of composite resin,Journal of the Mechanical Behavior of Biomedical Materials 3/2 (2010) 216-222.
  • [13] E. Santos Jr, K.D.P. Nascimento, S.S. Camargo Jr, Relation between in-vitro wear and nanomechanical properties of commercial light-cured dental composites coated with surface sealants, Materials Research 16/5 (2013) 1148-1155.
  • [14] P.V. Antunes, A. Ramalho, E.V.P. Carrilho, Mechanical and wear behaviours of nano and microfilled polymeric composite: Effect of filler fraction and size, Materials & Design (in print).
  • [15] F.A. Rueggeberg, State-of-the-art: dental photocuring - a review, Dental Materials 27/1 (2011) 39-52.
  • [16] J.G. Leprince, M. Hadis, A.C. Shortall, J.L. Ferracane, J. Devaux, G. Leloup, W.M. Palin, Photoinitiatior type and applicability of exposure reciprocity law in filled and unfilled photoactive resins, Dental Materials 27/2 (2011) 157-164.
  • [17] P.K. Shah, J.W. Stansbury, Role of filler and functional group conversion in the evolution of properties in polymeric dental restoratives, Dental Materials 30/5 (2014) 585-593.
  • [18] J. Zheng, Z.R. Zhou, J. Zhang, H. Li, H.Y. Yu, On the friction and wear behaviour of human tooth enamel and dentin, Wear 255 (2003) 967-974.
  • [19] M. Scherge, S. Sarembe, A. Kiesow, M. Petzold, Dental tribology at the microscale, Wear 297 (2013) 1040-1044.
  • [20] N.M. Masre, J. Sokołowski, B. Łapińska, The influence of the intensity of light and time exposure on the durability of dental composites, Dental Forum 2 (2010) 27-31 (in Polish).
  • [21] J. Stabik, M. Chomiak, Wear resistance of epoxy-hard coal composites, Archives of Materials Science and Engineering 64/2 (2013) 168-174.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-88f3831a-0bfa-49b4-91a8-732f868232f6
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