Journal of Applied and Computational Mechanics

Driveline Stability in Racing Motorcycles: Analysis of a Three ‎Degrees of Freedom Minimal Model

Document Type : Research Paper

Authors

Department of Engineering Enzo Ferrari, University of Modena and Reggio Emilia, Via Vivarelli 10, Modena, 41125, Italy

Abstract

Motorcycles under heavy braking conditions can experience a self-excited oscillation known as ‘chatter’. A simplified three degrees of freedom model of the rear of a motorcycle is developed to study the stability of this mode with the inclusion of lateral dynamics introduced by roll angle. Since motorcycles achieve high roll angles during operation, the study of chatter during these manoeuvres is a topic of interest. The equations of motion are linearised about a quasistatic equilibrium and simplified to accommodate symbolic inspection. Power analysis, eigensystem analysis, eigenvalue sensitivity and Routh-Hurwitz stability criterion are used to study the stability of the system in the braking region. It was found that a driveline mode can become unstable at about 19 Hz, and that its tendency towards instability is increased with added roll angle. This mode is sensitive to model parameters affecting the system inertia and stiffness, as well as the chain geometry. Finally, it is found that the lateral dynamics and roll angle play no direct role in chatter but have a significant indirect effect on it through the working point of the force characteristic function of the tyre.

Keywords

Main Subjects

Publisher’s Note Shahid Chamran University of Ahvaz remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

‎[1] Manrique-Escobar, C.A., Pappalardo, C.M, Guida, D., On the Analytical and Computational Methodologies for Modelling Two-wheeled Vehicles ‎within the Multibody Dynamics Framework: A Systematic Literature Review, Journal of Applied and Computational Mechanics, 8(1), 2022, 153-181. ‎
‎[2] Martini, A., Bellani, G., Fragassa, C., Numerical Assessment of a New Hydro-Pneumatic Suspension System for Motorcycles, International Journal of ‎Automotive and Mechanical Engineering, 15(2), 2018, 5308-5325. ‎
‎[3] Tezuka, Y., Kokubu, S., Shiomi, Y., Kiyota, S., Vibration Characteristics Analysis in Vehicle Body Vertical Plane of Motorcycle during Turning, Honda ‎R&D Technical Review, 16(1), 2004, 219-224. ‎
‎[4] Catania, G., Mancinelli, N., Motorcycle Local Stability Analysis Under Acceleration and Braking by Model Linearization and Eigenproblem Solution, ‎ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (IDETC 2007), Las Vegas, NV, USA, ‎‎2007. ‎
‎[5] Catania, G., Mancinelli, N., Modeling Nonlinear Motorcycle Dynamical Behavior During Severe Acceleration and Braking, ASME International ‎Mechanical Engineering Congress and Exposition (IMECE 2008), Boston, MA, USA, 2008. ‎
‎[6] Cossalter, V., Lot, R., Massaro, M., The chatter of racing motorcycles, Vehicle System Dynamics, 46(4), 2008, 339-353.
‎[7] Cossalter, V., Lot, R., Massaro, M., The Significance of Powertrain Characteristics on the Chatter of Racing Motorcycles, ASME Engineering Systems ‎Design and Analysis (ESDA 2012), Nantes, France, 2012. ‎
‎[8] Sharp, R.S., Watanabe, Y., Chatter vibrations of high-performance motorcycles, Vehicle System Dynamics, 51(3), 2013, 393-404. ‎
‎[9] Catania, G., Leonelli, L., Mancinelli, N., A Multibody Motorcycle Model for the Analysis and Prediction of Chatter Vibrations, ASME International ‎Mechanical Engineering Congress and Exposition (IMECE 2013), San Diego, CA, USA, 2013.
‎[10] Leonelli, L., Dynamic analysis of the motorcycle chattering behaviour by means of symbolic multibody modelling, Ph.D. Thesis, Department of Industrial ‎Engineering, University of Bologna, Bologna, Italy, 2014.‎
‎[11] Leonelli, L., Mancinelli, N., Sorrentino, S., A Study of Motorcycle Chatter Vibration with Multibody Models of Increasing Complexity, The Dynamics of ‎Vehicles on Roads and Tracks: Proceedings of the 24th Symposium of the International Association for Vehicle System Dynamics (IAVSD 2015), Graz, Austria, ‎‎2016. ‎
‎[12] Sorrentino, S., Leonelli, L., A study on the stability of a motorcycle wheel–swingarm suspension with chain transmission, Vehicle System Dynamics, ‎‎55(11), 2017, 1707-1730. ‎
‎[13] Leonelli, L., Cattabriga, S., Sorrentino, S., Driveline instability of racing motorcycles in straight braking manoeuvre, Proceedings of the Institution of ‎Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 232(17), 2018, 3045-3061. ‎
‎[14] Cattabriga, S., De Felice, A., Sorrentino, S., Patter instability of racing motorcycles in straight braking manoeuvre, Vehicle System Dynamics, 59(1), ‎‎2021, 33-55. ‎
‎[15] Romualdi, L., Mancinelli, N., De Felice, A., Sorrentino, S., A new application of the Extended Kalman Filter to the estimation of roll angles of a ‎motorcycle with Inertial Measurement Unit, FME Transactions, 48(2), 2020, 255-265. ‎
‎[16] Pacejka, H.B., Tire and Vehicle Dynamics, Butterworth-Heinemann, Oxford, 2012.‎
‎[17] Pappalardo, C.M., Lettieri, A., Guida, D., A General Multibody Approach for the Linear and Nonlinear Stability Analysis of Bicycle Systems. Part I: ‎Methods of Constrained Dynamics, Journal of Applied and Computational Mechanics, 7(2), 2021, 655-670. ‎
‎[18] Pappalardo, C.M., Lettieri, A., Guida, D., A General Multibody Approach for the Linear and Nonlinear Stability Analysis of Bicycle Systems. Part II: ‎Application to the Whipple-Carvallo Bicycle Model, Journal of Applied and Computational Mechanics, 7(2), 2021, 671-700. ‎
‎[19] De Rossi, L., Schramm, A., De Felice, A., Multibody Efficiency Analysis of Chain Drives in Racing Motorcycles, Journal of Applied and Computational ‎Mechanics, 8(3), 2022, 1091-1102. ‎
‎[20] Sharp, R.S., Giles, C.G., Motorcycle Front Wheel Patter in Heavy Braking, Vehicle System Dynamics, 12(1-3), 1983, pp. 159-160. ‎
‎[21] Schmeitz, A.J.C., Jansen, S.T.H., Tezuka, Y., Hasegawa, M., Miyagishi, S., Application of the Rigid Ring Model for Simulating the Dynamics of ‎Motorcycle Tyres on Uneven Roads, Bicycle and Motorcycle Dynamics 2010 Symposium on the Dynamics and Control of Single Track Vehicles, Delft, The ‎Netherlands, 2010. ‎
‎[22] Guiggiani, M., The Science of Vehicle Dynamics: Handling, Braking, and Ride of Road and Race Cars, Springer, Cham, 2018.‎
‎[23] Rosenbrook, H.H., The stability of linear time-dependent control systems, International Journal of Electronics, 15(1), 1963, 73-80. ‎
‎[24] Salisbury, I.G., Limebeer, D.J.N., Tremlett, A., Massaro, M., The unification of acceleration envelope and driveability concepts, The Dynamics of ‎Vehicles on Roads and Tracks: Proceedings of the 24th Symposium of the International Association for Vehicle System Dynamics (IAVSD 2015), Graz, Austria, ‎‎2016. ‎
‎[25] Leonelli, L., Limebeer, D.J.N., Optimal control of a road racing motorcycle on a three-dimensional closed track, Vehicle System Dynamics, 58(8), 2020, ‎‎1285-1309. ‎
‎[26] Kröger, M., Neubauer, M., Popp, K., Experimental Investigation on the Avoidance of Self-Excited Vibrations, Philosophical Transactions of the Royal ‎Society A: Mathematical, Physical and Engineering Sciences, 366(1866), 2008, 785-810. ‎
‎[27] Greenbaum, A., Li, R.C., Overton, M.L., First-Order Perturbation Theory for Eigenvalues and Eigenvectors, SIAM Review, 62(2), 2020, 463-482. ‎
‎[28] Hagedorn, P., Eckstein, M., Heffel, E., Wagner, A., Self-Excited Vibrations and Damping in Circulatory Systems, Journal of Applied Mechanics, 81(10), ‎‎2014, 1-9. ‎
‎[29] Schramm, A., Sorrentino, S., De Felice, A., Nonlinear investigation into the motorcycle chatter phenomenon using numerical simulation, 2021 JSAE ‎Autumn Congress (Society of Automotive Engineers of Japan), online, Japan, 2021.‎
Journal of Applied and Computational Mechanics
Volume 9, Issue 2
April 2023
Pages 404-418