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A few systems, such as steering, brakes or suspension, critically affect the vehicle's safety. In light of this, it is necessary to check these elements up to a certain age in order to maintain the vehicle in optimal safety conditions. This study is part of a project about effectiveness of Periodic Motor Vehicle Inspections (PMVI), in order to suggest metodologies, instruments and criterions to inspect the vehicle´s safety. It´s well known the relationship between steering geometries and the force in contact patch. The measurement of these geometries is important to evaluate the vehicle dynamic performance. The main objective is to evaluate the steering inspection method at low speed, current rejection criteria in order to analyze the effect of these results in vehicle´s safety behaviour in real dynamic conditions. The angle that has more influence on the PMVI inspection is the toe angle, being this one the principal parameter of analysis. Experimental force in contact patch with dynamometer plate and simulation results with CarSimTM have been carried out in order to validate the methodology of steering inspection and to check the information obtained in these tests.
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Tom
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47--54
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
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autor
autor
autor
autor
- Universidad Carlos III de Madrid, Department of Mechanical Engineering Avda. Universidad n 30. 28911 Leganes. Madrid. Spain, dgramos@ing.uc3m.es
Bibliografia
- [1] Blab R:. Introducing Improved Loading Assumptions into Analytical Pavement Models Based on Measured Contact Stresses of Tires, International Conference on Accelerated Pavement Testing, Reno, NV, Paper Number: CS5-3, (1999).
- [2] Díaz V., Ramírez M. Muñoz B.: A wheel model for the study of the wheel angle measurement in the periodic motor vehicle inspection. International Journal of Vehicle Design, vol. 34, Nº3. pp. 297-308 (2004).
- [3] Dugoff H., Fancher P. S. and Segel L.: An Analysis of Tire Traction Properties and Their Influence on Vehicle Dynamic Performance, SAE Paper No. 700377, (1970).
- [4] Gim G. and Nikravesh P E.: An Analytical Model of Pneumatic Tires for Vehicle Dynamic Simulations. Part 1. Pure Slips, International Journal of Vehicle Design, 11(2):589-618, (1990).
- [5] Gobbi M., Mastinu G., Giorgetta F.: “Sensors for measuring forces and moments with applications to ground vehicle design and engineering”, 2005 ASME IMECE, November 5-11, 2005, Orlando, Florida USA (2005).
- [6] Heydinger G. J., Howe J. G.: “Analysis of vehicle response data measured during severe manoeuvres”, SAE Paper 2000-01-1644, 2000.
- [7] ISO TR-3888-1 Passenger Cars. “Test track for a severe lane-change manoeuvre”, International Organization for Standardization, 1999.
- [8] Dixon J. C.: Tires, Suspension and Handling, Society of Automotive Engineers, (1996).
- [9] Kiencke U. and Nielsen L.: Automotive Control System for Engine, Driveline and Vehicle, Springer-Verlag, Berlin, 412 p., 2000.
- [10] Mechanical Simulation Corporation, “CarSimTM Reference Manual”, 2005.
- [11] Muñoz B.: Modelo de comportamiento de placa alineadora. ThD Thesis, EPS Universidad Carlos III de Madrid (2001).
- [12] Pacejka H. B., Sharp R. S.: “Shear force development by pneumatic tyres in steady state conditions: A review of modelling aspects”, Vehicle System Dynamic, Vol. 20, pp. 121-176, 1991.
- [13] Rechnitzer G., Haworth N., Kowadlo N. 2000. The effect of vehicle roadworthiness on crash incidence and severity. Monash University Accident Research Centre. Report nº 164, 2000.
- [14] Sakai H.: Theoretical and Experimental Studies on the Dynamic Properties of Tyres III. Calculations of the Six Components of Force and Moment of a Tyre, International Journal of Vehicle Design, 2(3):182-226, (1981).
- [15] Sayers M. W., Mousseau C. W., Gillespie T. D.: “Using simulation to learn about vehicle dynamics”, International Journal of Vehicle Design, Vol. 29, Nos. 1/2, pp. 112-127, 2002.
- [16] Gillespie T. D.: Fundamentals of vehicle dynamics, Society of Automotive Engineers. Inc, (1992).
- [17] Van Schoor O., van Niekerk J. L., Grobbelaar B., 2001. Mechanical failures as a contributing cause to motor vehicle accidents- South Africa. Accident Analysis and Prevention 33, 713-721, 2001.
- [18] Woltson B. R.: Wheel Slip Phenomena, International Journal of Vehicle Design, 8(2):177-191, (1987).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAR0-0038-0041