The Mathematical Characteristics of Steady State, Low Slip Angle Force and Moment Data 760031
The effects of tire break-in, roll-to-equilibrium, and mathematical modeling of the tire force and moment data on the evaluation of low slip angle tire lateral force and aligning torque properties is discussed. It is shown that a standardized break-in and testing sequence are critical to valid comparisons of tire lateral force and aligning torque data. The tire relaxation length data required in the design of a steady state lateral force and aligning torque test is presented. The third order polynomial model is proven to be the simplest adequate model for determining cornering coefficient and aligning torque coefficient.
Citation: Phelps, R., Pelz, W., Pottinger, M., and Marshall, K., "The Mathematical Characteristics of Steady State, Low Slip Angle Force and Moment Data," SAE Technical Paper 760031, 1976, https://doi.org/10.4271/760031. Download Citation
Author(s):
R.L Phelps, W. Pelz, M.G. Pottinger, K.D. Marshall
Affiliated:
B.F. Goodrich Co.
Pages: 12
Event:
1976 Automotive Engineering Congress and Exposition
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Mathematical models
Slip
Tires
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