Basic Course in Race Car Technology: Introduction to the Interaction of Tires, Chassis, Aerodynamics, Differential Locks and Frame

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The focus of the book is on the driving dynamics of racing vehicles. The interaction of the tyre, the aerodynamics, of the chassis and the limited slip differential specific to racing vehicles is dealt with. A chapter on the basics of vehicle dynamics makes it possible to get started with this topic even without prior automotive engineering training. A historical review and a consideration of the essential safety aspects create an understanding of higher-level requirements, which are specified, for example, by the technical regulations.

Author(s): Lars Frömmig
Series: Handbuch Rennwagentechnik, 1
Publisher: Springer Vieweg
Year: 2023

Language: English
Pages: 482
City: Wiesbaden

978-3-658-38470-8
1
Series Foreword
Greeting
Second Edition: Racing Car Technology Handbook - Six Volumes
Preface
Contents
Symbols, Units and Abbreviations
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Abbreviations
978-3-658-38470-8_1
1: Introduction
References
978-3-658-38470-8_2
2: History and Motivation
2.1 History of Motor Sport
2.1.1 1900-1910
2.1.2 1911-1920
2.1.3 1921-1930
2.1.4 1931-1940
2.1.5 1941-1950
2.1.6 1951-1960
2.1.7 1961-1970
2.1.8 1971-1980
2.1.9 1981-1990
2.1.10 1991-2000
2.1.11 2001-2010
2.1.12 2011 To Date
2.2 Motivation for Motor Sports
References
978-3-658-38470-8_3
3: Organization and Regulation
3.1 Associations and Vehicle Categories
3.2 Technical Regulations
3.2.1 FIA Technical Regulations for Formula One Cars (2018)
3.2.2 FIA Technical Regulations for LMP1 Hybrid Cars (2017)
3.2.3 Technical Regulations of Other Racing Series
References
978-3-658-38470-8_4
4: Racing Tires
4.1 Friction Circle
4.2 Mechanisms of Force Transmission
4.3 Lateral and Longitudinal Forces
4.4 Influence of Wheel Camber
4.5 Power Losses and Heating
4.6 Inflation Pressure
4.7 Tire Construction
4.8 Wear and Damage Patterns
References
978-3-658-38470-8_5
5: Driving Dynamics Basics
5.1 Movement Variables on the Vehicle
5.2 Single Track Model
5.3 Two-Track Model
5.4 Influence of Wheel Load Changes on Vehicle Dynamics
5.5 Driving Behavior as a Function of Balance, Brake Force Distribution and Drive Type
5.6 Basic Driving Techniques
References
978-3-658-38470-8_6
6: Aerodynamics
6.1 Aerodynamic Forces on the Complete Vehicle
6.2 Driving Performance
6.3 Basic Description of Flow Processes
6.4 Drag
6.5 Wing Profiles
6.5.1 Basic Characteristics of Wing Profiles
6.5.2 Influence of the Wing Geometry
6.5.3 Multi-Element Wings
6.5.4 Ground Effect of Wing Profiles
6.5.5 Front and Rear Wings on Racing Vehicles
6.5.6 Wake Vortices and End Plates
6.5.7 Gurney Flap
6.5.8 DRS and F-Duct Systems
6.5.9 Flexible Wing Elements
6.6 Underbody and Diffusers
6.6.1 The Discovery of the Ground Effect
6.6.2 Functioning of Diffusers
6.6.3 Performance Optimization on Diffusers
6.7 Spoilers, Splitters and Louvers
6.8 Influence of the External Contour of the Vehicle
6.9 Pitch Sensitivity
6.10 Crosswind and Off-Design Conditions
6.11 Active Downforce Generation
6.12 Aerodynamic Development Trends and Influence of the Regulations
References
978-3-658-38470-8_7
7: Suspension, Steering and Brake System
7.1 Tasks of the Suspension, the Steering and Brake System
7.2 Double Wishbone and Multi-link Axles
7.3 Springs and Stabilizers
7.3.1 Ratio and Wheel Related Spring Rates
7.3.2 Preload, Lowering and Crossweight
7.3.3 Torsion Bars
7.3.4 Stabilizers
7.4 Shock Absorbers/Dampers
7.4.1 The Function and Types of Telescopic Dampers
7.4.2 Valve Systems
7.4.3 Shock Absorbers for Motor Sport Applications
7.4.4 Rotary Dampers
7.5 3Heave-Spring/Damper and FRIC Systems
7.6 Inertia Dampers
7.7 Chassis Geometry
7.7.1 Instantaneous Center and Roll Axis
7.7.2 Pitch Center and Anti-geometries
7.7.3 Bump Steer
7.8 Steering System
7.8.1 Steering Geometry
7.8.2 Power
7.9 Toe-in and Camber Adjustment
7.10 Brake System
7.10.1 Brake Force Distribution
7.10.2 Hydraulic Braking System with Balance Bar
7.10.3 Braking Systems for KERS Use
References
978-3-658-38470-8_8
8: Limited Slip Differentials
8.1 Design of Differential Gears
8.2 Driving Dynamics Function of Conventional Axle Differentials
8.3 Driving Dynamics Operation of Differential Locks
8.3.1 Locking Behavior During Steady-State Cornering
8.3.2 Locking Behavior During Accelerated Cornering
8.3.3 Locking Behavior During Braking
8.3.4 Interaction with the Steering System with the Front Axle Driven
8.4 Classification of Limited Slip Differentials
8.5 Active and Controlled Limited Slip Differentials
8.6 Torque-Sensing Limited Slip Differentials
8.7 Speed-Sensing Limited Slip Differentials
8.8 Torque and Speed Sensing Limited Slip Differentials
8.9 Spool
8.10 One-Sided Brake Application
8.11 Superposition Differentials and ``Torque Splitters´´
8.12 Technical Regulations for the Final Drive
8.13 Weismann Differential and ``Detroit Locker´´
References
978-3-658-38470-8_9
9: Concept and Structure
9.1 Overall Vehicle Concept
9.2 Powertrain Concept
9.3 Structural Designs
9.3.1 Basic Concepts of Lightweight Construction
9.3.2 Integral Body Structure
9.3.3 Space Frame Design
9.3.4 Roll Cage
9.3.5 Tubular Frame Construction
9.3.6 Stressed-Skin Design
9.3.7 Monocoque Construction and Fiber Composites
9.4 Torsional Stiffness
References
978-3-658-38470-8_10
10: Safety in Motorsport
10.1 Historical Review
10.2 Accident Sequence and Rescue Chain
10.3 Crashworthiness
10.4 Restraint Systems and Driver Equipment
10.5 Track Design and Safety
References
978-3-658-38470-8_11
11: Questions and Tasks
11.1 Questionnaire
11.2 Collection of Tasks and Solutions
11.2.1 Tasks
11.2.2 Solutions