Original Scientific Paper, Volume 10, Number 4, Year 2012, No 236, pp 185 - 190

Published: Apr 25, 2017

DOI: 10.5937/jaes10-2244

A CONTRIBUTION TO RESEARCH OF DEGRADATION OF CHARACTERISTICS OF VIBRATION PARAMETERS ON VIBRATION ASPECT OF VEHICLE COMFORT

Miroslav Demic 1
Miroslav Demic
Affiliations
  University of Kragujevac, Faculty of Engineering Science, Kragujevac, Serbia
Search for articles by this author
Dorde Diligenski 2
Dorde Diligenski
Affiliations
  Vinca Institute of Nuclear Sciences, Department of Motor Vehicles and IC engines, Belgrade, Serbia
Search for articles by this author
Open PDF

Abstract

Dynamic simulation, based on modeling, has a significant role in vehicle development, especially in the early stages of design process, when relevant parameters are being defined. In praxis it is usu­ally assumed that vibration parameters are unchangeable, what is basically wrong. All researches indicate that vibration parameters degrade in time of vehicle service, consequently leading to a variation of its dynamic characteristics. This paper, based on preliminary research results, attempts to point out the necessity of taking into consideration this variation in the earliest phases of vehicle design by its implementation in the vehicle simulation model.

Keywords

Vehicle Vibration parameters Degradation Vibration comfort

References

Belingardi, G., Demic, M. (2009), A possible model for shock absorber by using the „Black Box" method, Istrazivanja i projektovanja za privredu, VII/4, pp. 45-53.

Bendat, J. and Piersol, A. (1980), Engineer­ing applications of correlation and spectral analysis, John Wiley and Sons, New York.

Bendat, J. and Piersol, A. (2000), Random data analysis and measurement, John Wiley and Sons, London.

Bendat, J. (1998), Nonlinear Systems - Tech­niques and Applications, John Wiley and Sons, London.

Demic, M. (2011), Scientific Methods and Technical Development (in Serbian), Me­chanical Engineering Faculty, Kragujevac.

Demic, M. (1997), The Optimization of Vehi­cle Vibration Systems (in Serbian), Mechani­cal Engineering Faculty, Kragujevac.

Demic, M. (2004), Design of Passenger Cars (in Serbian), Mechanical Engineering Facul­ty, Kragujevac.

Demic, M. et al. (1984), A Suplement to Stan­dardization of Nonuniformity of Passenger Car Tires with Respect to Oscillatory Comfort and Handling, ISATA, Milan.

Demic, M. (1999), The definition of the tires limit of admissible nonuniformity by using the vehicle vibratory model, Vehicle System Dy­namics 31 (3), pp. 183-211

Demic, M. (1994), Optimization of Vehicles Elasto-Damping Element Characteristics from the Aspect of Ride Comfort, Vehicle System Dynamics, Vol. 23, pp.351-377.

Demic, M. (1996), Optimization of Character­istics of Elasto-Damping Elements from the Aspect of Oscillatory Comfort and Vehicle Handling, Int. J. of Vehicle Design, Vol. 17, No 1.

Demic, M., Diligenski, D., Demic, I., Demic, M. (2006), A Method of Vehicle Active Suspension Design, Forschung im Ingenieurwessen. 5, 70: DOI 10.1007/s10010-06-0025-, pp 145-158.

Demic, M. and Lukic, J. (2008), Human Body Under Two-Directional Random Vibration, Journal of Low Frequency Noise, Vibration and Active Control, 3, pp. 185-201.

Demic, M. and Lukic, J. (2009), Investigation of the transmission of fore and aft vibration trough the human body, Applied Ergonomics, XXX, 1-8.

Demic, M., Lukic, J. and Milic, Z. (2002), Some aspects of the investigation of random vibration influence on ride comfort, Journal of Sound and Vibration, 1, pp. 109 - 129.

Demic, M., Belingardi, G. (2010), A Contribu­tion to shock absorber modelling and Analysis of their Influence on Vehicle ride Characteris­tics, Journal of Middle European Construction and Design of Cars (MECCA), 01, pp 6-17.

Demic, M. (2003), Analsigdem: Software for signal analysis, www.ptt.yu/korisnici/i/m/im- izm034/index.swf.

Demic, M. (2003), Demparcoh Software, www.ptt.yu/korisnici/i/m/imizm034/index.swf

Griffin, M. J. (1990), Handbook of Human Vi­bration, Academic Press, London.

Featherstone, R. (2008), Rigid Body Dynam­ics, Springer.

Genta A. (2003), Motor Vehicle Dynamics. Politecniko di Torino.

Gillespie T. (1992), Fundamentals of Vehicle Dynamics. SaE, Warrendale, 1992

Magneti Marelli (2012), Informations.

Miliken W.F, Miliken D.L. (1995), Race Car Vehicle Dynamics. SAE, Warrendale.

Miloradovic, D. (2012), Research of Mechan­ical and Functional Couplings of Vehicle Dy­namic System from the Aspect of Required Performances (in Serbian), PhD Thesis. Fac­ulty of Engineering Sciences, Kragujevac.

Rajamani, R. (2005), Vehicle Dynamics and Control, University of Minesota.

Raskovic, D. (1974), Analytical Mechanics- A Brief Course (in Serbian). Mechanical Engi­neering Faculty, Kragujevac.

Sekulic, D., Dedovic, V. (2008), Simulation of oscillatory behavior of buses with conven­tional and active suspension systems. Jour­nal of Applied Engineering Science, Vol. 6, No. 20, pp. 23-32

Sekulic, D., Dedovic, V.(2011), Effects of vi­bration on user comfort intercity buses using oscillatory model with seven degrees of free­dom using ADAMS / View software. Journal of Applied Engineering Science, Vol. 9, No. 3, pp. 401-410

Simic, S., S. (2006), Analytical Mechanics: Dynamics, Stability, Bifurcations (in Serbian). FTN Editions, Novi Sad.

Fabien, B. (2009), Analitical System Dynam­ics - Modeling and Simulation, Springer.

Zastava Informations (in Serbian) (1977­2010) Kragujevac.