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https://open.uns.ac.rs/handle/123456789/31236
Title: | Viscoelastic properties of uncured resin composites: Dynamic oscillatory shear test and fractional derivative model | Authors: | Petrović Ljubomir Zorica Dušan Stojanac Igor Krstonošić Veljko Hadnađev Miroslav Janev Marko Premović Milica Atanacković Teodor |
Keywords: | Resin composites;Uncured;Flowable and universal hybrid resin;Dynamic oscillatory shear test;Viscoelasticity of fractional order | Issue Date: | 2015 | Journal: | Dental Materials | Abstract: | © 2015 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved. Objective In this study we analyze viscoelastic properties of three flowable (Wave, Wave MV, Wave HV) and one universal hybrid resin (Ice) composites, prior to setting. We developed a mathematical model containing fractional derivatives in order to describe their properties. Methods Isothermal experimental study was conducted on a rheometer with parallel plates. In dynamic oscillatory shear test, storage and loss modulus, as well as the complex viscosity where determined. We assumed four different fractional viscoelastic models, each belonging to one particular class, derivable from distributed-order fractional constitutive equation. The restrictions following from the Second law of thermodynamics are imposed on each model. The optimal parameters corresponding to each model are obtained by minimizing the error function that takes into account storage and loss modulus, thus obtaining the best fit to the experimental data. Results In the frequency range considered, we obtained that for Wave HV and Wave MV there exist a critical frequency for which loss and storage modulus curves intersect, defining a boundary between two different types of behavior: one in which storage modulus is larger than loss modulus and the other in which the situation is opposite. Loss and storage modulus curves for Ice and Wave do not show this type of behavior, having either elastic, or viscous effects dominating in entire frequency range considered. Significance The developed models may be used to predict behavior of four tested composites in different flow conditions (different deformation speed), thus helping to estimate optimal handling characteristics for specific clinical applications. | URI: | https://open.uns.ac.rs/handle/123456789/31236 | ISSN: | 0109-5641 | DOI: | 10.1016/j.dental.2015.05.009 |
Appears in Collections: | FINS Publikacije/Publications |
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