Fundamentals of vehicle dynamics /

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A world-recognized expert in the science of vehicle dynamics, Dr. Thomas Gillespie has created an ideal reference book that has been used by engineers for 30 years, ranging from an introduction to the subject at the university level to a common sight on the desks of engineers throughout the world. A...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Gillespie, T. D. (Thomas D.) (Autor)
Otros Autores: Taheri, Saied (Editor ), Sandu, Corina (Editor ), Duprey, Benjamin L. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Warrendale, Pennsylvania : SAE International, [2021]
Edición:Revised edition.
Temas:
Motor vehicles > Dynamics.
Véhicules automobiles > Dynamique.
Motor vehicles > Dynamics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Chapter 1: Introduction. Dawn of the Motor Vehicle Age
  • Introduction to Vehicle Dynamics
  • Fundamental Approach to Modeling
  • Dynamic Axle Loads
  • Chapter 2: Acceleration performance. Power-Limited Acceleration
  • Traction-Limited Acceleration
  • Chapter 3: Breaking performance. Basic Equations
  • Breaking forces
  • Brakes
  • Tire-road friction
  • Federal Requirements for Braking Performance
  • Brake Proportioning
  • Anti-lock Brake Systems
  • Braking Efficiency
  • Rear Wheel Lockup
  • Pedal Force Gain
  • Chapter 4: Road loads. Aerodynamics
  • Rolling Resistance
  • Total road loads
  • Chapter 5: Ride. Excitation Sources
  • Vehicle Response properties
  • Perception of ride
  • Chapter 6: Steady-state cornering. Low-Speed Turning
  • High-Speed Cornering
  • Suspension Effects on Cornering
  • Summary of Understeer Effects
  • Experimental Measurement of Understeer Gradient
  • Chapter 7: Suspensions. Solid axles
  • Independent suspensions
  • Anti-Squat and Anti-Pitch Suspension Geometry
  • Anti-Dive Suspension Geometry
  • Roll center analysis
  • Active suspensions
  • Chapter 8: The steering system. The Steering Linkages
  • Steering Geometry Error
  • Front-Wheel Geometry
  • Steering System Forces and Moments
  • Steering System Models
  • Examples of Steering System Effects
  • Influence of Front-Wheel Drive
  • Four-wheel steer
  • Chapter 9: Rollover. Quasi-Static Rollover of a Rigid Vehicle
  • Quasi-Static Rollover of a Suspended Vehicle
  • Transient Rollover
  • Accident Experience
  • Dynamic Stability Testing
  • Hardware-in-the-Loop Testing of ESC Systems
  • Chapter 10: Tires. Tire Construction
  • Size and Load Rating
  • Tire Load Index
  • Terminology and Axis System
  • Mechanics of Force Generation
  • Tractive Properties
  • Cornering properties
  • Camber thrust
  • Aligning moment
  • Combined Braking and Cornering
  • Conicity and Ply Steer
  • Durability Forces
  • Tire Vibrations
  • Appendix A: (R) vehicle dynamics terminology
  • Appendix B: SAE J6a ride and vibration data manual
  • Appendix C: Ride index structure and development methodology.

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