Publication detail
Computational Modelling and Measurement of Vibration of Power Train Mountings of a Passenger Car
VOPAŘIL, J. DRÁPAL, L.
English title
Computational Modelling and Measurement of Vibration of Power Train Mountings of a Passenger Car
Type
Paper in proceedings (conference paper)
Language
en
Original abstract
The paper presents tools for vibration evaluation of power train mounting system of a passenger car to meet demands for passengers comfort. The computational model is based on the Multi-Body System principles and includes submodules as are engine, clutch, gearbox, final drive, drive shafts and rheological models of all power train mountings. Simulation results are validated on account of measurement of power train vibration at different engine load conditions. Both simulation and measurement are carried out at power train of the European B-segment car with an in-line three-cylinder spark-ignition engine and manual gearbox. Presented methodology can bring time and cost savings particularly during mountings design process.
Keywords in English
vibration, power train, mount, Multi-Body dynamics
Released
2018-05-22
Publisher
JVE International
Location
Kaunas, Lithuania
ISSN
2345-0533
Book
Vibroengineering PROCEDIA
Volume
1
Number
18
Pages from–to
144–149
Pages count
6
BIBTEX
@inproceedings{BUT149395,
author="Jan {Vopařil} and Lubomír {Drápal}",
title="Computational Modelling and Measurement of Vibration of Power Train Mountings of a Passenger Car",
booktitle="Vibroengineering PROCEDIA",
year="2018",
journal="Vibroengineering Procedia",
volume="1",
number="18",
pages="144--149",
publisher="JVE International",
address="Kaunas, Lithuania",
doi="10.21595/vp.2018.19944",
issn="2345-0533",
url="https://www.jvejournals.com/article/19944"
}