International Journal of Applied Nanotechnology (IJAN)

This article is study about shrink of polymer originated composes. Aim has been inclusive from nano- based fillers on hybridized consequence from polymeric effects. Otherwise, descriptive issues have ever arose to link accession to repair dental simulated perversions. Nanotechnology in material formulation has been production of functional structures in range of 0.1 to 100 nm. Advantages of these composites have inherent shrinkage of cure mode in accordance to monomers said as transferrable from free floating molecules to rigid chains linking polymeric transformation. Shrink contraction has produced tensions tend to concentrate on tooth restoration interfaces of weakened adhesive affects. Addition of inorganic filler particles to matrix of composites has significance in reduction of shrink stress and thermal expansions. Size and shape of nanoparticles and organic-resin matrix have changed usual shrinkage due to polymerization. Composites produced with nanotechnology have rated formation from nano-filled resins; otherwise, nanohybrid resins added up with nano-fillers have reduced polymerization shrinkage. Low polymerization shrinkage has secured by accession of ring-opened system in fabrication, given by, oxirane and siloxane.

Chauhan, N.S., Meghwal, K., Punjabi, P.B., Chaudhary, J. and Kataria, P., 2015. Dental Polymers: Applications. Encyclopedia of Biomedical Polymers and Polymeric Biomaterials, Taylor, and Francis: New York, pp.2501-2522.

Suhasini, K., Madhusudhana, K., Suneelkumar, C., Lavanya, A., Chandrababu, K.S. and Kumar, P.D., 2016. Clinical performance of Class I nanohybrid composite restorations with resin-modified glass-ionomer liner and flowable composite liner: A randomized clinical trial. Journal of conservative dentistry: JCD, 19(6), p.510.

Masulili, B.I., Suprastiwi, E., Artiningsih, D.A.N.P. and Novista, C., 2020. Comparison of volumetric shrinkage of composite resin nanoceramic and nanofiller. International Journal of Applied Pharmaceutics, 12(Special Issue 2), pp.1-3.

Pereira, R.A., Araujo, P.A.D., Castañeda-Espinosa, J.C. and Mondelli, R.F.L., 2008. Comparative analysis of the shrinkage stress of composite resins. Journal of Applied Oral Science, 16(1), pp.30-34.

Kwon, T.Y., Ha, J.Y., Chun, J.N., Son, J.S. and Kim, K.H., 2014. Effects of prepolymerized particle size and polymerization kinetics on volumetric shrinkage of dental modeling resins. BioMed research international, 2014.

Barretto, I.C., Pontes, L.F., Carneiro, K.K., Araujo, J.L.N., Ballester, R.Y. and Silva, C.M., 2015. Comparative analysis of polymerization shrinkage of different resin composites. Matrix, 2, pp.78-0.

Malhotra, N. and Acharya, S., 2010. Strategies to Overcome Polymerization Shrinkage− Materials and Techniques. A Review. Dental update, 37(2), pp.115-125.

Al Azmi, M.M., Hashem, M.I., Assery, M.K., Al Sayed, M.S. and Kumar, A., 2017. An in-vitro evaluation of mechanical properties and surface roughness of bulk fill vs incremental fill resin composites. Int J Prev Clin Dent Res, 4(1), pp.37-42.

Comba, A., Scotti, N., Maravić, T., Mazzoni, A., Carossa, M., Breschi, L. and Cadenaro, M., 2020. Vickers hardness and shrinkage stress evaluation of low and high viscosity bulk-fill resin composite. Polymers, 12(7), p.1477.

Tsujimoto, A., Barkmeier, W.W., Takamizawa, T., Latta, M.A. and Miyazaki, M., 2016. Mechanical properties, volumetric shrinkage and depth of cure of short fiber-reinforced resin composite. Dental materials journal, 35(3), pp.418-424.

Soares, C.J., Rodrigues, M.D.P., Vilela, A.B.F., Pfeifer, C.S., Tantbirojn, D. and Versluis, A., 2017. Polymerization shrinkage stress of composite resins and resin cements–What do we need to know?. Brazilian oral research, 31.

Par, M., Marovic, D., Attin, T., Tarle, Z. and Tauböck, T.T., 2020. The effect of rapid high-intensity light-curing on micromechanical properties of bulk-fill and conventional resin composites. Scientific Reports, 10(1), pp.1-10.

Hasslen, J.A., Barkmeier, W.W., Shaddy, R.S. and Little, J.R., 2019. Depth of cure of high-viscosity bulk-fill and conventional resin composites using varying irradiance exposures with a light-emitting diode curing unit. Journal of oral science, pp.18-0245.

Xu, T., Li, X., Wang, H., Zheng, G., Yu, G., Wang, H. and Zhu, S., 2020. Polymerization shrinkage kinetics and degree of conversion of resin composites. Journal of Oral Science, 62(3), pp.275-280.

Hardiyanti, K.P., Herda, E. and Indrani, D.J., 2018, August. Effect of resin thickness and light-curing irradiance on the hardness and depth of cure of short fiber-reinforced resin composite. In Journal of Physics: Conference Series (Vol. 1073, No. 5, p. 052016). IOP Publishing.