Tyre and Vehicle Dynamics 1st Edition by Hans B Pacejka ISBN 0768011264 9780768011265 by Hans Pacejka 9780750651417, 0750651415 instant download after payment.

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ISBN 10: 0768011264 
ISBN 13: 9780768011265
Author: Hans B Pacejka

Tyre and Vehicle Dynamics 1st Table of contents:

Part I: Tyre Mechanics and Characteristics

Chapter 1: Tyre Construction and Properties

• Tyre Components: Tread, Sidewall, Casing, Belts, Bead
• Tyre Types: Radial, Bias-Ply, Tubeless, Run-Flat, Winter, All-Season, Performance
• Tyre Materials: Rubber Compounds, Cords, Fillers
• Manufacturing Processes and Quality Control
• Tyre Specifications: Size Designation, Load Index, Speed Rating

Chapter 2: Tyre-Road Contact and Friction

• The Contact Patch: Shape, Size, and Pressure Distribution
• Adhesion, Hysteresis, and Friction Mechanisms
• Coefficient of Friction: Factors Affecting It (Surface, Temperature, Slip)
• Slip Ratio and Slip Angle: Fundamental Concepts
• Rolling Resistance: Causes and Impact on Fuel Economy

Chapter 3: Tyre Forces and Moments

• Longitudinal Force (Tractive/Braking Force) and Slip Ratio
• Lateral Force (Cornering Force) and Slip Angle
• Self-Aligning Torque (SAT): Pneumatic Trail and Caster Effect
• Overturning Moment and Rolling Resistance Moment
• Camber Thrust and Camber Stiffness
• Combined Slip: Tyre Behavior under Concurrent Longitudinal and Lateral Forces

Chapter 4: Tyre Models

• Linear Tyre Models (e.g., Cornering Stiffness, Longitudinal Stiffness)
• Empirical Tyre Models:
  • Pacejka's Magic Formula (Concepts, Parameters, Applications)
  • Brush Model (Physical Interpretation)
• Physical Tyre Models (e.g., Finite Element Analysis basics for tyres)
• Neural Network and Data-Driven Tyre Models
• Tyre Testing and Data Acquisition

Chapter 5: Tyre Wear and Durability

• Mechanisms of Tyre Wear: Abrasion, Fatigue, Cracking
• Factors Influencing Wear Rate (Load, Slip, Road Surface, Temperature)
• Tread Pattern Design and its Effect on Wear and Performance
• Tyre Aging and Degradation
• Tyre Noise Generation and Reduction

Part II: Vehicle Dynamics: Single-Track Models and Steady-State Analysis

Chapter 6: Longitudinal Vehicle Dynamics

• Driveline Mechanics: Engine Torque, Transmission, Final Drive
• Braking Dynamics: Braking Force Distribution, ABS Principles
• Vehicle Acceleration and Braking Performance Calculations
• Gradeability and Resistance Forces (Aerodynamic, Rolling, Gradient)
• Energy Consumption and Efficiency

Chapter 7: Steady-State Cornering (Lateral Dynamics)

• Single-Track (Bicycle) Model: Assumptions and Limitations
• Understeer and Oversteer Characteristics
• Lateral Load Transfer in Cornering
• Steering System Geometry: Ackermann Steering, Caster, Camber, Toe
• Roll Steer and Compliance Steer

Chapter 8: Ride Dynamics

• Tyre as a Suspension Element
• Road Irregularities and Input
• Suspension System Components (Springs, Dampers, Anti-roll Bars)
• Pitch, Roll, and Heave Motion Analysis
• Vibration and Comfort Analysis

Part III: Vehicle Dynamics: Multi-Track Models and Transient Behavior

Chapter 9: Transient Handling and Control

• Two-Track (Four-Wheel) Model for Handling Analysis
• Step Steer Response
• Lane Change Maneuvers
• Limit Handling and Non-Linear Behavior
• Yaw Rate Control and Stability Analysis

Chapter 10: Vehicle Stability and Control Systems

• Electronic Stability Control (ESC/ESP): Principles and Algorithms
• Traction Control Systems (TCS)
• Anti-lock Braking Systems (ABS): Advanced Concepts
• Active Suspension Systems
• Torque Vectoring
• Autonomous Vehicle Control and Dynamic Implications

Chapter 11: Suspension System Design and Optimization

• Independent vs. Dependent Suspensions
• Double Wishbone, MacPherson Strut, Multi-Link Designs
• Kinematics and Compliances of Suspension Systems
• Tuning Suspension for Performance and Comfort
• Spring, Damper, and Anti-Roll Bar Selection

Chapter 12: Advanced Topics in Vehicle Dynamics

• Race Car Dynamics: Aerodynamics, Downforce, Tyre Management
• Motorcycle Dynamics
• Heavy Vehicle Dynamics (Trucks, Buses)
• Off-Road Vehicle Dynamics
• Human Factor in Vehicle Dynamics (Driver Models)

Part IV: Experimental and Computational Methods

Chapter 13: Vehicle Dynamics Testing and Measurement

• Tyre Testing Rigs (Flat-Belt, Drum, Indoor/Outdoor)
• Vehicle Instrumentation (Sensors: GPS, IMU, Steering Angle, Wheel Speed)
• Standardized Handling Maneuvers (e.g., ISO Lane Change, J-Turn)
• Data Acquisition and Analysis

Chapter 14: Simulation and Modeling Tools

• Multi-Body Dynamics Software (e.g., Adams Car, CarSim, SIMPACK)
• Co-Simulation of Tyre and Vehicle Models
• Real-time Simulation and Hardware-in-the-Loop (HIL)
• Virtual Prototyping and Development

Conclusion: The Future of Tyre and Vehicle Dynamics

• Impact of Electrification on Dynamics
• Autonomous Driving and the Changing Role of Dynamics
• Sustainable Tyre Technologies
• Integration of AI and Machine Learning in Dynamics

Appendices

• A. Review of Rigid Body Dynamics
• B. Mathematical Tools (Matrices, Differential Equations)
• C. Tyre Data Sheets and Interpretation
• D. Standardized Test Procedures

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