Analytical Model for Prediction of Damping Properties of Particulate-Filled Polymer Composite

To work out effective damping materials it is necessary to perfect analytical dependences linking dynamic properties of a composite with its structure-forming parameters. The analytical model of the particulate-filled polymers, based on the method of strain energy, convenient for engineering use and...

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Veröffentlicht in:	Materials science forum 2018-10, Vol.937, p.77-82
Hauptverfasser:	Cherkasov, D.V., Avdonin, V.V., Yurkin, Yuriy V.
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Sprache:	eng
Schlagworte:	Damping Mathematical models Particulate composites Polymer matrix composites
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description	To work out effective damping materials it is necessary to perfect analytical dependences linking dynamic properties of a composite with its structure-forming parameters. The analytical model of the particulate-filled polymers, based on the method of strain energy, convenient for engineering use and allowing to predict damping properties of a composite more reliable is given in this article. The detailed leading-out of formulas for scaling of a bulk modulus and loss factor of both two-phase and three-phase model of a composite is presented. Comparison of numerical values of damping characteristics under the derived formulas with experimental researches show that the offered model allows not only to show a qualitative pattern of dependence of dynamic behavior of a composite from degree of admission, but also to receive comprehensible quantitative results.
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subjects	Damping Mathematical models Particulate composites Polymer matrix composites
title	Analytical Model for Prediction of Damping Properties of Particulate-Filled Polymer Composite
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