Lucie Rouleau scite author profile

ABSTRACT:The goal of this study is twofold. The first one is to assess the applicability of approaches based on dynamicmechanical analysis to investigate the viscoelastic properties of a self-adhesive synthetic rubber. The second goal is to identify the parameters of a viscoelastic model which accurately represents the frequency-dependent mechanical properties. For that purpose, the time-temperature superposition principle is successfully applied to build the master curves of the material up to 1 MHz. The thickness of the samples and the thermal expansion effects are found to have a negligible influence on the mechanical properties measured by dynamic-mechanical analysis. The parameters of a generalized Maxwell model and a fractional derivative model are identified from the obtained master curves and lead to an accurate representation of the frequency-dependent mechanical properties of the rubber.

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A comparison of model reduction techniques based on modal projection for structures with frequency-dependent damping

Rouleau

Deü

Legay

2017

Mechanical Systems and Signal Processing

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Viscoelastic behavior of polymeric foams: Experiments and modeling

Henriques

Rouleau²,

Castello³

et al. 2020

Mechanics of Materials

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How reproducible are methods to measure the dynamic viscoelastic properties of poroelastic media?

Bonfiglio

Pompoli

Horoshenkov

et al. 2018

Journal of Sound and Vibration

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There is a considerable number of research publications on the acoustical properties of porous media with an elastic frame. A simple search through the Web of Science TM (last accessed 21 March 2018) suggests that there are at least 819 publications which deal with the acoustics of poroelastic media. A majority of these researches require accurate knowledge of the elastic properties over a broad frequency range. However, the accuracy of the measurement of the dynamic elastic properties of poroelastic media has been a contentious issue. The novelty of this paper is that it studies the reproducibility of some popular experimental methods which are used routinely to measure the key elastic properties such as the dynamic Young's modulus, loss factor and Poisson ratio of poroelastic media. In this paper, fourteen independent sets of laboratory measurements were performed on specimens of the same porous materials.The results from these measurements suggest that the reproducibility of this type of experimental method is poor. This work can be helpful to suggest improvements which can be developed to harmonize the way the elastic properties of poroelastic media are measured worldwide. P. Bonfiglio et al. JSV https://doi.

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Lucie Rouleau

Application of Kramers–Kronig relations to time–temperature superposition for viscoelastic materials

Characterization and Modeling of the Viscoelastic Behavior of a Self-Adhesive Rubber Using Dynamic Mechanical Analysis Tests

A comparison of model reduction techniques based on modal projection for structures with frequency-dependent damping

Viscoelastic behavior of polymeric foams: Experiments and modeling

How reproducible are methods to measure the dynamic viscoelastic properties of poroelastic media?

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