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DRÁPAL, L. FRIDRICHOVÁ, K. VOPAŘIL, J. DLUGOŠ, J.
Original Title
Computational modelling of the torsional damper of an unconventional crank train for a four-cylinder engine
Type
article in a collection out of WoS and Scopus
Language
English
Original Abstract
The paper presents computational modelling of a torsional damper in the ADAMS Multi-Body System. Both rubber and viscous torsional dampers are integrated by using rheological models into the dynamic system based on modally reduced bodies. The hysteresis damping model is considered for the rubber damper, while in the case of the viscous damper, the optimization of the model parameters to the data from the manufacturer is used. Torsional dampers are used in the mass-produced naturally aspirated four-cylinder spark-ignition engine and its derived variant with an unconventional crank train with low friction losses. The results of the simulations are compared with data obtained experimentally by a laser vibrometer when measured on an engine.
Keywords
torsional damper, rubber, viscous, rheological model, hysteretic, crankshaft
Authors
DRÁPAL, L.; FRIDRICHOVÁ, K.; VOPAŘIL, J.; DLUGOŠ, J.
Released
7. 9. 2022
Publisher
Slovak University of Technology in Bratislava, Faculty of Mechanical Engineering
Location
Bratislava
ISBN
978-80-227-5215-2
Book
Scientific Proceeding KOKA 2022
Edition number
1
Pages from
179
Pages to
186
Pages count
8
BibTex
@inproceedings{BUT179104, author="Lubomír {Drápal} and Kateřina {Fridrichová} and Jan {Vopařil} and Jozef {Dlugoš}", title="Computational modelling of the torsional damper of an unconventional crank train for a four-cylinder engine", booktitle="Scientific Proceeding KOKA 2022", year="2022", number="1", pages="179--186", publisher="Slovak University of Technology in Bratislava, Faculty of Mechanical Engineering", address="Bratislava", isbn="978-80-227-5215-2" }