Try Mobilus Beta
Search tips
 This content is not included in your SAE MOBILUS subscription, or you are not logged in.

A New Semi-Empirical Method for Estimating Tire Combined Slip Forces and Moments during Handling Maneuvers

Journal Article
2015-01-9112
ISSN: 1946-3995, e-ISSN: 1946-4002
DOI: https://doi.org/10.4271/2015-01-9112
Published July 01, 2015 by SAE International in United States
A New Semi-Empirical Method for Estimating Tire Combined Slip Forces and Moments during Handling Maneuvers
Sector:
Citation: Taheri, S. and Wei, T., "A New Semi-Empirical Method for Estimating Tire Combined Slip Forces and Moments during Handling Maneuvers," SAE Int. J. Passeng. Cars - Mech. Syst. 8(2):797-815, 2015, https://doi.org/10.4271/2015-01-9112.
Language: English

References

  1. Schuring , D. , Pelz , W. , and Pottinger , M. The Paper-Tire Concept: A Way to Optimize Tire Force and Moment Properties SAE Technical Paper 970557 1997 10.4271/970557
  2. Schröder , C. and Duchow A. Heavy truck handling performance analysis in vehicle test and computer simulation Tire Science and Technology 25 2 119 136 1997
  3. Taheri , S. et al. A technical survey on Terramechanics models for tire-terrain interaction used in modeling and simulation of wheeled vehicles Journal of Terramechanics 57 1 22 2015
  4. Deur , J. , Asgari J. , and Hrovat D. A 3D brush-type dynamic tire friction model Vehicle System Dynamics 42 3 133 173 2004
  5. Dugoff , H. , Fancher , P. , and Segel , L. An Analysis of Tire Traction Properties and Their Influence on Vehicle Dynamic Performance SAE Technical Paper 700377 1970 10.4271/700377
  6. PACEJKA , H.B. Analysis of the dynamic response of a rolling string-type tire model to lateral wheel-plane vibrations Vehicle System Dynamics 1 1 37 66 1972
  7. Lacombe , J. Tire model for simulations of vehicle motion on high and low friction road surfaces Proceedings of the 32nd conference on winter simulation 2000 Society for Computer Simulation International
  8. Gipser , M. FTire - The tire simulation model for all applications related to vehicle dynamics Vehicle System Dynamics 45 139 151 2007
  9. Gipser , M. The FTire Tire Model Family 2003 Esslingen University of Applied Sciences: Esslingen Germany 18
  10. Gipser , M. FTire: 10 Years of Development and Application 2008 Esslingen: Esslingen University of Applied Sciences 13
  11. Gipser , M. FTire - Flexible Ring Tire Model, Modelization and Parameter Specifications 2013 April 17th https://www.cosin.eu/res/ftire_model.pdf
  12. Olatunbosun , O. and Bolarinwa O. FE simulation of the effect of tire design parameters on lateral forces and moments Tire science and Technology 32 3 146 163 2004
  13. Li , Z. , Li Z.R. , and Xia Y.M. An Implicit to Explicit FEA Solving of Tire F&M with Detailed Tread Blocks Tire Science and Technology 40 2 83 107 2012
  14. Ghoreishy , M. Finite element analysis of steady rolling tyre with slip angle: Effect of belt angle Plastics, rubber and composites 35 2 83 90 2006
  15. Salaani , M. Analytical Tire Forces and Moments Model With Validated Data SAE Technical Paper 2007-01-0816 2007 10.4271/2007-01-0816
  16. Salaani , M.K. Analytical Tire Forces and Moments with Physical Parameters 2 Tire science and Technology 36 1 3 42 2008
  17. Taheri , S. , Sandu C. , and Taheri S. Development and Implementation of a Hybrid Soft Soil Tire Model (HSSTM) The 18th International ISTVS Conference Seoul, Korea 2014
  18. Taheri , S. , Sandu C. , and Taheri S. Hybrid Soft Soil Tire Model (HSSTM). Part II: Tire-Terrain Interaction Modeling Journal of Terramechanics 2015
  19. Teheri , S. et al. Off-road Soft Soil Tire Model, in Presentation for the 7th Americas Regional ISTVS Conference 2013 Tampa, FL
  20. Taheri , S. et al. Hybrid Soft Soil Tire Model (HSSTM). Part I: Tire Material and Structure Modeling Journal of Terramechanics JTERRA-D-15-00025 2015
  21. Taheri , S. , Sandu , C. , and Taheri , S. Finite Element Modeling of Tire Transient Characteristics in Dynamic Maneuvers SAE Int. J. Passeng. Cars - Mech. Syst. 7 1 221 230 2014 10.4271/2014-01-0858
  22. Taheri , S. Finite Element Modeling of Tire-Terrain Dynamic Interaction for Full Vehicle Simulation Application Mechanical Engineering 2014 Virginia Tech Blacksburg Virginia
  23. Kabe , K. and Koishi M. Tire cornering simulation using finite element analysis Journal of Applied Polymer Science 78 8 1566 1572 2000
  24. Chae , S. Nonlinear Finite Element Modeling and Analysis of a Truck Tire Intercollege Graduate Program in Materials. 2006 Pennsylvania State University 207
  25. Chae , S. et al. Dynamic response predictions of a truck tire using detailed finite element and rigid ring models ASME 2004 International Mechanical Engineering Congress and Exposition 2004 American Society of Mechanical Engineers
  26. Pacejka , H.B. and Bakker E. The Magic Formula Tyre Model Vehicle System Dynamics 21 001 1 18 1992
  27. Mousseau , R. , Song , D. , Miller , B. , Semrau , G. et al. Using Simulation to Quantify Sine with Dwell Maneuver Test Metric Variability SAE Technical Paper 2008-01-0590 2008 10.4271/2008-01-0590
  28. Ortiz , A. et al. An easy procedure to determine Magic Formula parameters: a comparative study between the starting value optimization technique and the IMMa optimization algorithm Vehicle System Dynamics 44 9 689 718 2006
  29. Pacejka , H.B. and Sharp R.S. Shear force development by pneumatic tyres in steady state conditions: a review of modelling aspects Vehicle system dynamics 20 3 4 121 175 1991
  30. Braghin , F. , Cheli F. , and Sabbioni E. Identification of tire model parameters through full vehicle experimental tests Journal of Dynamic Systems, Measurement, and Control 133 3 031006 2011
  31. Van Oosten , J. et al. Standardization in Tire Modeling and Tire Testing-TYDEX Workgroup, TIME Project Tire Science and Technology 27 3 188 202 1999
  32. Jazar , R.N. Vehicle dynamics: theory and application 2008 Springer
  33. Bayle , P. , Forissier J. , and Lafon S. A new tyre model for vehicle dynamics simulations Automotive Technology International 93 193 198 1993
  34. van Schlippe , B. and Dietrich R. Das Flattern eines bepneuten Rades Ber. Lilienthal Ges. 140 35 1941
  35. Loeb , J.S. The measurement of tire static stiffnesses and their relation to relaxation lengths 1985 The Ohio State University
  36. Rill , G. First order tire dynamics. 3rd European Conference on Computational Mechanics Solids, Structures and Coupled Problems in Engineering, Lisbon, Portugal 2006
  37. Naranjo , S.D. et al. Experimental testing of an off-road instrumented tire on soft soil Journal of Terramechanics 56 119 137 2014 http://dx.doi.org/10.1016/j.jterra.2014.09.003
  38. Loeb , J. , Guenther , D. , Chen , H. , and Ellis , J. Lateral Stiffness, Cornering Stiffness and Relaxation Length of the Pneumatic Tire SAE Technical Paper 900129 1990 10.4271/900129
  39. Brewer , H. Measurement of steady state and transient aircraft tire forces Tire Science and Technology 3 2 111 127 1975
  40. Clark , S.K. Mechanics of pneumatic tires 1981 US Department of Transportation, National Highway Traffic Safety Administration
  41. Lee , J.-H. Analysis of tire effect on the simulation of vehicle straight line motion Vehicle system dynamics 33 6 373 390 2000
  42. Sharp , R. and Bettella M. Shear Force and Moment Descriptions by Normalisation of Parameters and the “Magic Formula Vehicle system dynamics 39 1 27 56 2003

Cited By

Recommended Content

Technical Paper Simulation Analysis and Optimization of Vehicle Transient Response Characteristics under Steering Angle Input
Technical Paper The Tire-Force Ellipse (Friction Ellipse) and Tire Characteristics
Technical Paper Lateral Forces of Passenger Tires and Effects on Vehicle Response During Dynamic Steering