This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
An Experimental Study of Tire Standing Waves on a Small-Scale Test Rig
Annotation ability available
Sector:
Language:
English
Abstract
Small-scale test rigs for experimental investigations of tire standing wave instability are described. The rigs are used in experiments in which tire rotational speed is gradually increased passed the critical speed at which standing waves appear around the circumference of the tire. The first detailed results from one of the rigs are presented. Images grabbed from live video are processed to extract the spatial structure of the standing waves. Frequency and time domain vibrational data and temperature histories are also collected. The spatial frequencies for the standing wave are computed for four different tire pressures, and the results are shown to be in qualitative agreement with numerical results of previous researchers.
Recommended Content
Technical Paper | Realistic Rear Axle Hydroplaning during Forward Motion |
Technical Paper | Effect of Aging on Tire Force and Moment Characteristics |
Technical Paper | Tire Thump: Its Mechanism and Measurement |
Topic
Citation
Cusumano, J. and Zolock, J., "An Experimental Study of Tire Standing Waves on a Small-Scale Test Rig," SAE Technical Paper 961301, 1996, https://doi.org/10.4271/961301.Also In
References
- Ames, W. F. “Waves in Tires” Textile Research Journal 20 1970 498 503
- Mechanics of Pneumatic Tires Clark S. K. U. S. Department of Transportation National Highway Safety Administration 1981
- Dodge, D. N. “The Dynamic Stiffness of a Pneumatic Tire Model” SAE Paper 650491 , Midyear Meeting Chicago May 1965
- Clark, S. K. “The Rolling Tire Under Load” SAE Paper 650493 , Midyear Meeting Chicago May 1965
- Tielking, J.T. “Plane Vibration Characteristics of a Pneumatic Tire Model” SAE Paper 6504925, Midyear Meeting Chicago, Ill. 1965
- Potts, G.R. Bell, C.A. Charek, L.T. Roy, T.K. “Tire Vibrations” Tire Science and Technology TSTCA 5 4 1977 202 225
- Bickford, W. B. Reddy, E. S. “On the In-Plane Vibrations of Rotating Rings” Journal of Sound and Vibration 101 1985 13 22
- Huang, S.C. Soedel, W. “Effects of Coriolis Acceleration on the Free and Forced In-Plane Vibration of Rotating Rings on Elastic Foundation” Journal of Sound and Vibration 115 2 1987 253 274
- Huang, S.C. Soedel, W. “Response of Rotating Rings to Harmonic and Periodic Loading and Comparison With the Inverted Problem” Journal of Sound and Vibration 118 2 1987 253 270
- Huang, S.C “The Vibration of Rolling Tyres in Ground Contact” International Journal of Vehicle Design 13 1 1992 78 95
- Huang, S. C. Su, C.K. “In-Plane Dynamics of Tires on the Road Based on an Experimentally Verified Rolling Ring Model” Vehicle System Dynamics 21 1992 247 267
- Lindlsey, N. J. Cusumano, J. P. “Critical Speed Analysis of a Non-Linear Strain Ring Dynamical Model for Aircraft Tires” SAE Paper 932580 Costa Mesa, CA 1993
- Padovan, J. “On Viscoelasticity and Standing Waves in Tires” Tire Science and Technology TSTCA 4 4 1976 233 246
- Padovan, J. “On Standing Waves in Tires” Tire Science and Technology TSTCA 5 2 1977 83 101
- Kung, L. E. Soedel, W. Yang, T. Y. “Free Vibration of a Pneumatic Tire-Wheel Unit Using a Ring on an Elastic Foundation and a Finite Element Model” Journal of Sound and Vibration 107 2 1986 181 194
- Kennedy, R. Padovan, J. “Finite Element Analysis of a Steady-State Rotating Tire Subjected to a Point Load or Ground Contact” Tire Science and Technology TSTCA 15 4 1987 243 260
- Champion, J. H. Wagner, P. M. “A Critical Speed Study for Aircraft Bias Ply Tires” U. S. Airforce 1988
- Padovan, J. Kasempour, A. Tabaddor, F. Brockman, B. “Evaluation of Critical Speeds in High Speed Aircraft Tires” SAE Paper 892349 1989
- Hirano, M. Akasaka, T. “Natural Frequencies of the Bias Tire” Tire Science and Technology TSTCA 4 2 1976 86 114
- Kung, L. E. “Radial Vibrations of Pneumatic Radial Tires” SAE Paper 900759 1990
- Scavuzzo, R. W. Richards, T. R. Charek, L. T. “Tire Vibration Modes and Effects on Vehicle Ride Quality” Tire Science and Technology TSTCA 21 1 1993 23 39
- Wagner, P. M. “Initial Critical Speed Laboratory Tests of Three Aircraft Bias Ply Tires” U. S. Air Force 1989
- Medzorian, J. “Prediction of Aircraft Tire Critical Speed by Natural Frequency Extraction” U. S. Air Force, Wright Laboratories/FIVMA internal report 1991