Appropriate modelling of the real behavior of viscoelastic materials is of fundamental importance for correct studies and analyses of structures and components where such materials are employed. In this paper, the potential to employ a generalized Maxwell model and the relative fraction derivative model is studied with the aim to reproduce the experimental behavior of viscoelastic materials. For both models, the advantage of using the pole-zero formulation is demonstrated and a specifically constrained identification procedure to obtain the optimum parameters set is illustrated. Particular emphasis is given on the ability of the models to adequately fit the experimental data with a minimum number of parameters, addressing the possible computational issues. The question arises about the minimum number of experimental data necessary to estimate the material behavior in a wide frequency range, demonstrating that accurate results can be obtained by knowing only the data of the upper and low frequency plateaus plus the ones at the loss tangent peak.
Study on the generalized formulations with the aim to reproduce the viscoelastic dynamic behavior of polymers / Genovese, Andrea; Carputo, Francesco; Maiorano, Antonio; Timpone, Francesco; Farroni, Flavio; Sakhnevych, Aleksandr. - In: APPLIED SCIENCES. - ISSN 2076-3417. - 10:7(2020), pp. 2321-2339. [10.3390/app10072321]
Study on the generalized formulations with the aim to reproduce the viscoelastic dynamic behavior of polymers
Andrea Genovese
Primo
Conceptualization
;Francesco CarputoSoftware
;Antonio MaioranoData Curation
;Francesco TimponeMethodology
;Flavio FarroniResources
;Aleksandr SakhnevychUltimo
Supervision
2020
Abstract
Appropriate modelling of the real behavior of viscoelastic materials is of fundamental importance for correct studies and analyses of structures and components where such materials are employed. In this paper, the potential to employ a generalized Maxwell model and the relative fraction derivative model is studied with the aim to reproduce the experimental behavior of viscoelastic materials. For both models, the advantage of using the pole-zero formulation is demonstrated and a specifically constrained identification procedure to obtain the optimum parameters set is illustrated. Particular emphasis is given on the ability of the models to adequately fit the experimental data with a minimum number of parameters, addressing the possible computational issues. The question arises about the minimum number of experimental data necessary to estimate the material behavior in a wide frequency range, demonstrating that accurate results can be obtained by knowing only the data of the upper and low frequency plateaus plus the ones at the loss tangent peak.File | Dimensione | Formato | |
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