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PÍŠTĚK, V. KLIMEŠ, L. MAUDER, T.
Originální název
Dynamic models of elastomer parts using mass-spring-damper system
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
angličtina
Originální abstrakt
Linear structural components joined by means of elastomer parts play an important role in automotive industry. Elastomeric mountings of engines and rubber torsional vibration dampers of crankshafts are typical representatives of such components. Some computational problems, however, can arise when finite element modelling or a multibody software is used to investigate systems with structural components. The approximation by means of multi-parameter mass-spring-damper models is frequently utilized to overcome this issue. The paper presents computational results obtained with the use of the generalized modified Kelvin model. The optimization model was used to approximate experimentally acquired data of the dynamic stiffness of a rubber silentblock for automotive use. The model was implemented in GAMS software, which allows for non-linear optimization. Simulation results show that the fourth-order generalized modified Kelvin model enables a great approximation of the considered rubber silentblock.
Klíčová slova
mass-spring-damper models, nonlinear optimization, modified Kelvin model
Autoři
PÍŠTĚK, V.; KLIMEŠ, L.; MAUDER, T.
Rok RIV
2015
Vydáno
22. 10. 2015
Nakladatel
Kaunas University of Technology
Místo
Kaunas, Lithuania
ISSN
1822-296X
Periodikum
Transport Means
Stát
Litevská republika
Strany od
63
Strany do
66
Strany počet
4
BibTex
@inproceedings{BUT118005, author="Václav {Píštěk} and Lubomír {Klimeš} and Tomáš {Mauder}", title="Dynamic models of elastomer parts using mass-spring-damper system", booktitle="19th International conference Transport Means 2015 Proceedings", year="2015", journal="Transport Means", pages="63--66", publisher="Kaunas University of Technology", address="Kaunas, Lithuania", issn="1822-296X" }