PSI - Issue 28

Vesela Hristova et al. / Procedia Structural Integrity 28 (2020) 1002–1009 Vesela Hristova, Tsanka Dikova, Vladimir Panov / Structural Integrity Procedia 00 (2019) 000–000

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Cefaly, D.F.G., Barata, T.J.E., Tapety, C.M.C., Bresciani, E., Navarro, M.F.L., 2005. Clinical evaluation of multisurface art restorations. Journal of Applied Oral Science 13 (1), 9-15. Dikova, T., 2015. Dental Materials Science. Part II, MU-Varna, Varna,160. Dikova, T., Vasilev, T., Hristova, V., Panov, Vl., 2020. Finite Element Analysis in Setting of Fillings of V-Shaped Tooth Defects Made with Glass Ionomer Cement and Flowable Composite. Processes 8 (3), 363-375. GC Fuji VIII GP; GC Corporation Japan; GC EUROPE N.V.; GC EEO-Bulgaria. https://cdn.gceurope.com/v1/PID/fuji8gp/ leaflet/LFL_Fuji_VIII_GP_bg.pdf (accessed on 13.02.2020). Gupta, S.K., Gupta, J., Saraswathi, V., Ballal, V., Acharya, S.R., 2012. Comparative evaluation of microleakage in Class V cavities using various glass ionomer cements: An in vitro study. Journal of Interdisciplinary Dentistry 2 (3), 164-169. Hakimeh, S., Vaidyanathan, J., Houpt, M.L., Vaidyanathan, T.K., Von Hagen, S., School, N.J., 2000. Microleakage of compomer class V restorations: effect of load cycling, thermal cycling, and cavity shape differences. The Journal of prosthetic dentistry 83 (2), 194-203. Hirayama, S., Iwai, H., Tanimoto, Y., 2014. Mechanical evaluation of five flowable resin composites by the dynamic micro-identation metod. Journal of Dental Biomechanics, 1-8. Hristova, V., Dimitrov, Sl., Koleva, M., Doychinova, M., 2017. The V-shaped defects on hard tooth tissues - a contemporary view. Varna Medical Forum 6 (1), 117-121. Hristova,V., Panov, Vl., Koleva, M., 2018. V-shaped defects - epidemiological aspects. Varna Medical Forum 7 (2), 97-102. Ichim, I., Li, Q., Loughran, J., Swain, M.V., Kieser, J., 2007. Restoration of non-carious cervical lesions Part I. Modelling of restorative fracture . Dental materials 23 (12), 1553-1561. Ichim, I., Schmidlin, P.R., Li, Q., Kieser, J.A. , Swain, M.V., 2007. Restoration of non-carious cervical lesions Part II. Restorative material selection to minimise fracture. Dental materials 23 (12), 1562-1569. Kemp-Scholte, C.M., Davidsson, C.L., 1990. Marginal integrity related to bond strength and strain capacity of composite resin restorative systems. Journal of Prosthetic Dentistry 64 (6), 658-664. Lohbauer, U., 2010. Dental glass ionomer cements as permanent filling materials? – Properties, limitations and future trends. Materials 3 (1), 76 96. May, S., Cieplik, F., Hiller, K.A., Federlin, M., Schmalz, G., 2017. Flowable composites for restoration of non-carious cervical lesions: Three years results. Dental materials 33 (3), 136-145. Nematollahi, H., Bagherian, A., Ghazvini, K., Esmaily, H., Mehr, M.A., 2017. Microbial microleakage assessment of class V cavities restored with different materials and techniques: A laboratory study. Dental research journal (Isfahan) 14 (5), 344-350. Objelean, A.C., Silaghi-Dimitrescu, L., Furtos, G, Badea, M.A., Moldovan, M., 2016. The influence of organic-inorganic phase mixures on degradation behavior of some resin composites used in conservative dentistry. Journal of optoelecronics and advanced materials 18 (3), 567 575. Onal, B., Pamir, T., 2005. The 2-year clinical performance of esthetic restorative materials in noncarious cervical lesions.The Journal of the American Dental Association 136 (11), 1547-55. Papadogiannis, D.Y., Lakes, R.S., Papadogiannis, Y., Palaghias, G., Helvatjoglu- Antoniades, M., 2008. The effect of temperature on the viscoelastic properties of nano-hybrid composites. Dental materials 24 (2), 257-266. Perez, C.D.R., Gonzalez, M.R., Prado, N.A.S., De Miranda, M.S.F., Macedo, M.D.A., Fernandes, B.M.P., 2012. Restoration of noncarious cervical lesions : When, why, and how ? International Journal of Dentistry, 1-8. Poggio, C., Chiesa, M., Dagna, A., Colombo, M., Scribante, A., 2012. Microleakage in class V gingiva-shaded composite resin restorations. Annali Di Stomatologia (Roma). 3 (1), 19-23. Rizzante, F.A.P., Mondelli, R.F.L., Furuso, A.Y., Borges, A.F.S., Mendonca, G., Ishikiriama, S.K., 2019. Shrinkage stress and elastic modulus assessment of bulk-fill composites. Journal of applied oral science 27 (1), 1-9. Safety data sheet, Evetric, 2015. Ivoclar Vivadent AG, Liechtenstein, 6. Sahu, D., Somani, R., Rao, B.V., Nagarjuna, P., Eshwara, K., Deepa, Lakshmi, P.V.S., 2018. Comparative evaluation of microleakage of various glass-ionomer cements: An invitro study. International journal of preventive and clinical dental research 5 (3), 17-20. Schmidt, C., Ilie, N., 2012. The mechanical stability of nano-hybrid composites with new methacrylate monomers for matrix compositions. Dental Materials 28 (2), 152-159. Scientific Documentation Adhese® Universal, Ivoclar Vivadent AG, Liechtenstein, April.2015, p. 58. https://dspconnect.s3.amazonaws.com/Ivoclar/Adhesive/AdheseUniversalScientificDocumentation.pdf (accessed on 20.03.2020). Senawongse, P., Pongrueksa, P., Tagami, J., 2010. The effect ot the elastic modulus of low-viscosity resins on the microleakage of Class V resin composite restorations under occlusal loading. Dental Materials Journal 29 (3), 324-329. Singla, P., Pandit, I.K., Srivastava, N., Gugnami, N., Gupta, M., 2012. An evaluation of microleakage of various glass-ionomer based restorative materials in deciduous and permanent teeth: An in vitro study. The Saudi dental journal 24 (1), 35-42. Spajic, J., Par, M., Milat, O., Demoli, N., Bjelovucic, R., Prskalo, K., 2019. Effects of curing modes on the microhardness of resin-modified glass ionomer cements. Acta Stomatologica Croatia 53 (1), 37-46. Technical Report, Estelite® Flow Quick and Estelite® Flow Quick High Flow, Tokuyama Dental Corporation Inc., Japan. p. 23. http://www.tokuyama-dental.com/tdc/pdf/technical report/EFQ_and_EFQ_HF_TechnicalReport.pdf (accessed on 13.02.2020). Van Meerbeek, B., Willems, G., Celis, J.P., Roos, J.R., Braem, M., Lambrechts, P., Vanherle, G., 1993. Assessment by nano-indentation of the hardness and elasticity of the resin-dentin bonding area. Journal of dental research 72 (10), 1434- 1442. Zhang, Y., Ge, W.S., Liu, C. and Cao, Y., 2016. Clinical effect of a new low-shrinkage composite on restoring dental wedge-shaped defects. Shanghai kou qiang yi xue= Shanghai journal of stomatology, 25(1), 47-52. Zhao, I.S., Mei, M.L., Zhou, Z.L., Burrow, M.F., Lo, E.C.M., Chu, C.H., 2017. Shear bond strength and remineralisation effect of a casein phosphopeptide-amorphous calcium phosphate –modified glass-ionomer cement on artificial “caries affected” dentine. International journal of molecular sciences 18 (8), 1-10.