A theory of vehicle steering pull, created by asymmetrical tire cornering properties, is developed. It is validated with free control data obtained on the road. The effects of tire lateral force and aligning torque asymmetries on a car's straight line stability are analyzed for both fixed and dree control. Equations for front axle lateral force, steering system moment, and sideslip angle are derived. They are based on tire properties and certain assumptions about the car's characteristics. This theory is validated using data obtained in open road testing. In addition, the relationships between actual front axle force and axle conicity force, ply steer force, and lateral force offset are analyzed. It is found that front axle conicity force correlates very strongly with a more accurate theoretical prediction. The axle force predicted by tire conicity force is somewhat low. /HSRI/

  • Supplemental Notes:
    • Presented at the Automotive Engineering Congress and Exposition held in Detroit, 24-28 February 1975.
  • Corporate Authors:

    Society of Automotive Engineers

    485 Lexington Avenue
    New York, NY  United States  10017
  • Authors:
    • Topping, R W
  • Publication Date: 1975-2-28

Media Info

  • Features: Figures; References;
  • Pagination: 8 p.

Subject/Index Terms

Filing Info

  • Accession Number: 00096013
  • Record Type: Publication
  • Source Agency: Highway Safety Research Institute
  • Report/Paper Numbers: SAE #750406
  • Files: TRIS
  • Created Date: Jul 15 1975 12:00AM