A new identification method of viscoelastic behavior: Application to the generalized Maxwell model |
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Authors: | Franck Renaud,Jean-Luc DionRé mi Lemaire |
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Affiliation: | a LISMMA-EA2336, Institut Superieur de Mecanique de Paris, 3 rue Fernand Hainaut, 93400 Saint Ouen, France b BOSCH - Chassis Systems Brakes, 126 Rue de Stalingrad, 93700 Drancy, France |
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Abstract: | This paper focuses on the generalized Maxwell model (GMM) identification. The formulation of the transfer function of the GMM is defined, as well as its asymptotes. To compare identification methods of the parameters of the GMM, a test transfer function and two quality indicators are defined. Then, three graphical methods are described, the enclosing curve method, the CRONE method and an original one. But the results of graphical methods are not good enough. Thus, two optimization recursive processes are described to improve the results of graphical methods. The first one is based on an unconstrained non-linear optimization algorithm and the second one is original and allows constraining identified parameters. This new process uses the asymptotes of the modulus and the phase of the transfer function of the GMM. The result of the graphical method optimized with the new process is very accurate and fast. |
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Keywords: | Viscoelasticity Identification Generalized Maxwell Fractional derivatives Transfer function Pole-zero |
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