Description

Book Synopsis
Vehicle Dynamics comprehensively covers the fundamentals of vehicle dynamics with application to automotive mechatronics.

Table of Contents

Foreword xi

Series Preface xiii

Preface xv

List of Abbreviations and Symbols xvii

1 Introduction 1

1.1 Introductory Remarks 3

1.2 Motion of the Vehicle 4

1.3 Questions and Exercises 8

2 The Wheel 11

2.1 Equations of Motion of the Wheel 11

2.2 Wheel Resistances 14

2.2.1 Rolling Resistance 14

2.2.2 Aquaplaning 18

2.2.3 Bearing Resistance 19

2.2.4 Toe-In/Toe-Out Resistance 19

2.3 Tyre Longitudinal Force Coefficient, Slip 20

2.4 Questions and Exercises 24

3 Driving Resistances, Power Requirement 27

3.1 Aerodynamic Drag 27

3.2 Gradient Resistance 29

3.3 Acceleration Resistance 29

3.4 Equation of Motion for the Entire Vehicle 32

3.5 Performance 34

3.6 Questions and Exercises 39

4 Converters 43

4.1 Clutch, Rotational Speed Converter 45

4.2 Transmission, Torque Converter 48

4.3 Questions and Exercises 54

5 Driving Performance Diagrams, Fuel Consumption 57

5.1 Maximum Speed without Gradient 60

5.2 Gradeability 61

5.3 Acceleration Capability 61

5.4 Fuel Consumption 63

5.5 Fuel Consumption Test Procedures 68

5.6 Questions and Exercises 70

6 Driving Limits 73

6.1 Equations of Motion 74

6.2 Braking Process 79

6.3 Braking Rate 84

6.4 Questions and Exercises 91

7 Hybrid Powertrains 93

7.1 Principal Functionalities 93

7.2 Topologies of Hybrid Powertrains 99

7.3 Regenerative Braking and Charging 101

7.4 Questions and Exercises 106

8 Adaptive Cruise Control 107

8.1 Components and Control Algorithm 107

8.2 Measurement of Distances and Relative Velocities 112

8.3 Approach Ability 117

8.4 Questions and Exercises 118

9 Ride Dynamics 121

9.1 Vibration Caused by Uneven Roads 124

9.1.1 Damped Harmonic Oscillator 124

9.1.2 Assessment Criteria 128

9.1.3 Stochastic Irregularities 130

9.1.4 Conflict between Safety and Comfort 132

9.2 Oscillations of Powertrains 144

9.2.1 Torsional Oscillators 144

9.2.2 Centrifugal Pendulum Vibration Absorbers 147

9.3 Examples 151

9.4 Questions and Exercises 152

10 Vehicle Substitute Models 155

10.1 Two-mass Substitute System 155

10.2 Two-axle Vehicle, Single-track Excitation 158

10.3 Non-linear Characteristic Curves 165

10.4 Questions and Exercises 167

11 Single-track Model, Tyre Slip Angle, Steering 169

11.1 Equations of Motion of the Single-track Model 169

11.2 Slip Angle 177

11.3 Steering 181

11.4 Linearized Equations of Motion of the Single-track Model 185

11.5 Relationship between Longitudinal Forces and Lateral Forces in the Contact Patch 188

11.6 Effect of Differentials when Cornering 189

11.7 Questions and Exercises 191

12 Circular Driving at a Constant Speed 193

12.1 Equations 193

12.2 Solution of the Equations 195

12.3 Geometric Aspects 197

12.4 Oversteering and Understeering 201

12.5 Questions and Exercises 205

13 Dynamic Behaviour 207

13.1 Stability of Steady-state Driving Conditions 207

13.2 Steering Behaviour 210

13.3 Crosswind Behaviour 213

13.4 Questions and Exercises 216

14 Influence of Wheel Load Transfer 217

14.1 Wheel Load Transfer without Considering Vehicle Roll 217

14.2 Wheel Load Transfer Considering Vehicle Roll 221

14.3 Questions and Exercises 228

15 Toe-in/Toe-out, Camber and Self-steering Coefficient 229

15.1 Toe-in/Toe-out, Camber 229

15.2 Questions and Exercises 233

16 Suspension Systems 235

16.1 Questions and Exercises 245

17 Torque and Speed Converters 247

17.1 Speed Converters, Clutches 247

17.2 Transmission 252

17.3 Questions and Exercises 258

18 Shock Absorbers, Springs and Brakes 259

18.1 Shock Absorbers 259

18.2 Ideal Active Suspension and Skyhook Damping 264

18.2.1 Ideal Active Suspension 264

18.2.2 Skyhook Dampers 267

18.3 Suspension Springs 269

18.4 Brake Systems 277

18.5 Questions and Exercises 281

19 Active Longitudinal and Lateral Systems 283

19.1 Main Components of ABS 283

19.2 ABS Operations 287

19.3 Build-up Delay of Yaw Moment 290

19.4 Traction Control System 293

19.5 Lateral Stability Systems 294

19.6 Hydraulic Units for ABS and ESP 296

19.7 Active Steering System 297

19.8 Questions and Exercises 298

20 Multi-body Systems 301

20.1 Kinematics of Rigid Bodies 302

20.2 Kinetic Energy of a Rigid Body 305

20.3 Components of Multi-body Systems 309

20.4 Orientation of Rigid Bodies 312

20.5 Derivation and Solution of the Equations 315

20.5.1 Derivation of the Equations 315

20.5.2 Solution of Equations 316

20.6 Applications of MBS 317

20.7 Questions and Exercises 322

Glossary 323

References 329

Index 331

Vehicle Dynamics

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A Hardback by Martin Meywerk

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    View other formats and editions of Vehicle Dynamics by Martin Meywerk

    Publisher: John Wiley & Sons Inc
    Publication Date: 05/06/2015
    ISBN13: 9781118971352, 978-1118971352
    ISBN10: 1118971353
    Also in:
    Automotive technology and trades

    Description

    Book Synopsis
    Vehicle Dynamics comprehensively covers the fundamentals of vehicle dynamics with application to automotive mechatronics.

    Table of Contents

    Foreword xi

    Series Preface xiii

    Preface xv

    List of Abbreviations and Symbols xvii

    1 Introduction 1

    1.1 Introductory Remarks 3

    1.2 Motion of the Vehicle 4

    1.3 Questions and Exercises 8

    2 The Wheel 11

    2.1 Equations of Motion of the Wheel 11

    2.2 Wheel Resistances 14

    2.2.1 Rolling Resistance 14

    2.2.2 Aquaplaning 18

    2.2.3 Bearing Resistance 19

    2.2.4 Toe-In/Toe-Out Resistance 19

    2.3 Tyre Longitudinal Force Coefficient, Slip 20

    2.4 Questions and Exercises 24

    3 Driving Resistances, Power Requirement 27

    3.1 Aerodynamic Drag 27

    3.2 Gradient Resistance 29

    3.3 Acceleration Resistance 29

    3.4 Equation of Motion for the Entire Vehicle 32

    3.5 Performance 34

    3.6 Questions and Exercises 39

    4 Converters 43

    4.1 Clutch, Rotational Speed Converter 45

    4.2 Transmission, Torque Converter 48

    4.3 Questions and Exercises 54

    5 Driving Performance Diagrams, Fuel Consumption 57

    5.1 Maximum Speed without Gradient 60

    5.2 Gradeability 61

    5.3 Acceleration Capability 61

    5.4 Fuel Consumption 63

    5.5 Fuel Consumption Test Procedures 68

    5.6 Questions and Exercises 70

    6 Driving Limits 73

    6.1 Equations of Motion 74

    6.2 Braking Process 79

    6.3 Braking Rate 84

    6.4 Questions and Exercises 91

    7 Hybrid Powertrains 93

    7.1 Principal Functionalities 93

    7.2 Topologies of Hybrid Powertrains 99

    7.3 Regenerative Braking and Charging 101

    7.4 Questions and Exercises 106

    8 Adaptive Cruise Control 107

    8.1 Components and Control Algorithm 107

    8.2 Measurement of Distances and Relative Velocities 112

    8.3 Approach Ability 117

    8.4 Questions and Exercises 118

    9 Ride Dynamics 121

    9.1 Vibration Caused by Uneven Roads 124

    9.1.1 Damped Harmonic Oscillator 124

    9.1.2 Assessment Criteria 128

    9.1.3 Stochastic Irregularities 130

    9.1.4 Conflict between Safety and Comfort 132

    9.2 Oscillations of Powertrains 144

    9.2.1 Torsional Oscillators 144

    9.2.2 Centrifugal Pendulum Vibration Absorbers 147

    9.3 Examples 151

    9.4 Questions and Exercises 152

    10 Vehicle Substitute Models 155

    10.1 Two-mass Substitute System 155

    10.2 Two-axle Vehicle, Single-track Excitation 158

    10.3 Non-linear Characteristic Curves 165

    10.4 Questions and Exercises 167

    11 Single-track Model, Tyre Slip Angle, Steering 169

    11.1 Equations of Motion of the Single-track Model 169

    11.2 Slip Angle 177

    11.3 Steering 181

    11.4 Linearized Equations of Motion of the Single-track Model 185

    11.5 Relationship between Longitudinal Forces and Lateral Forces in the Contact Patch 188

    11.6 Effect of Differentials when Cornering 189

    11.7 Questions and Exercises 191

    12 Circular Driving at a Constant Speed 193

    12.1 Equations 193

    12.2 Solution of the Equations 195

    12.3 Geometric Aspects 197

    12.4 Oversteering and Understeering 201

    12.5 Questions and Exercises 205

    13 Dynamic Behaviour 207

    13.1 Stability of Steady-state Driving Conditions 207

    13.2 Steering Behaviour 210

    13.3 Crosswind Behaviour 213

    13.4 Questions and Exercises 216

    14 Influence of Wheel Load Transfer 217

    14.1 Wheel Load Transfer without Considering Vehicle Roll 217

    14.2 Wheel Load Transfer Considering Vehicle Roll 221

    14.3 Questions and Exercises 228

    15 Toe-in/Toe-out, Camber and Self-steering Coefficient 229

    15.1 Toe-in/Toe-out, Camber 229

    15.2 Questions and Exercises 233

    16 Suspension Systems 235

    16.1 Questions and Exercises 245

    17 Torque and Speed Converters 247

    17.1 Speed Converters, Clutches 247

    17.2 Transmission 252

    17.3 Questions and Exercises 258

    18 Shock Absorbers, Springs and Brakes 259

    18.1 Shock Absorbers 259

    18.2 Ideal Active Suspension and Skyhook Damping 264

    18.2.1 Ideal Active Suspension 264

    18.2.2 Skyhook Dampers 267

    18.3 Suspension Springs 269

    18.4 Brake Systems 277

    18.5 Questions and Exercises 281

    19 Active Longitudinal and Lateral Systems 283

    19.1 Main Components of ABS 283

    19.2 ABS Operations 287

    19.3 Build-up Delay of Yaw Moment 290

    19.4 Traction Control System 293

    19.5 Lateral Stability Systems 294

    19.6 Hydraulic Units for ABS and ESP 296

    19.7 Active Steering System 297

    19.8 Questions and Exercises 298

    20 Multi-body Systems 301

    20.1 Kinematics of Rigid Bodies 302

    20.2 Kinetic Energy of a Rigid Body 305

    20.3 Components of Multi-body Systems 309

    20.4 Orientation of Rigid Bodies 312

    20.5 Derivation and Solution of the Equations 315

    20.5.1 Derivation of the Equations 315

    20.5.2 Solution of Equations 316

    20.6 Applications of MBS 317

    20.7 Questions and Exercises 322

    Glossary 323

    References 329

    Index 331

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