Publication detail
Truck driveline vibration modeling using multi-body system
JANOUŠEK, M.
English title
Truck driveline vibration modeling using multi-body system
Type
conference paper
Language
en
Original abstract
Prediction of NVH parameters of driveline in construction phase is a significant topic nowadays because it can save time and development costs, but requires more complex mathematical models. This paper describes the use of MBS simulation tool for prediction of driveshaft vibration where shaft is modeled as a flexible body. MBS approach can take into account various input parameters, i.e. unbalanced mass of shaft, geometry deviation from ideal shape, mounting points of eccentricity or contact between the shaft and other parts of the driveline. MBS model of driveshaft was verified by measurement on a real vehicle.
English abstract
Prediction of NVH parameters of driveline in construction phase is a significant topic nowadays because it can save time and development costs, but requires more complex mathematical models. This paper describes the use of MBS simulation tool for prediction of driveshaft vibration where shaft is modeled as a flexible body. MBS approach can take into account various input parameters, i.e. unbalanced mass of shaft, geometry deviation from ideal shape, mounting points of eccentricity or contact between the shaft and other parts of the driveline. MBS model of driveshaft was verified by measurement on a real vehicle.
Keywords in English
driveshaft, MBS modeling, whirling vibration, experiment
Released
31.08.2016
Publisher
JVE International Ltd.
Location
Kaunas, Lithuania
ISSN
2345-0533
Book
Vibroengineering PROCEDIA
Volume
1
Number
7
Pages from–to
160–163
Pages count
199
BIBTEX
@inproceedings{BUT127891,
author="Michal {Janoušek},
title="Truck driveline vibration modeling using multi-body system",
booktitle="Vibroengineering PROCEDIA",
year="2016",
volume="1",
number="7",
month="August",
pages="160--163",
publisher="JVE International Ltd.",
address="Kaunas, Lithuania",
issn="2345-0533"
}