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Engineering - Mechanical Engineering | The Automotive Chassis - Volume 2: System Design

The Automotive Chassis

Volume 2: System Design

Genta, Giancarlo, Morello, L.

2009, XIII, 832 p.

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  • Covers all aspects of the subject
  • Covers both theoretical and the practical aspects
  • Deals with updated points like numerical modelling and virtual prototyping
  • Contains a large number of illustrations showing the design of actual components and systems, from many different manufacturers, together with worked numerical examples

The Automotive Chassis is the result of two decades of experience: On the one hand from the experience of teaching courses such as Vehicle Mechanics, Vehicle System Design, Chassis Design to engineering students; on the other hand from the design practice of vehicle and chassis components in a large automotive company.

This work is addressed primarily to students of automotive engineering and secondarily to all technicians and designers working in this field. It is also addressed to all enthusiasts who are looking for a technical guide.

The text is subdivided in two volumes. The first one deals with the automotive chassis componenst, such as

· a structure, usually a ladder framework, able to carry all the remaining components of the vehicle;

· the suspensions for the mechanical linkage of wheels with the framework;

· the wheels and their tires;

· the steering system for changing wheel angles according to vehicle path;

· the brake system for reducing speed or stopping the vehicle;

· the transmission for applying engine torque to the driving wheels.

The second volume deals with the automotive chassis as a system, studying how it influences vehicle performance and dealing in detail with mathematical models useful for the design and analysis of the vehicle.

Content Level » Graduate

Keywords » ABS - Antiblockiersystem - Antriebsschlupfregelung - Chassis system control - Motor - Tire mechanics - Vehicle design - Vehicle dynamics - accident - automotive design - chassis - motor vehicle dynamics - road vehicles

Related subjects » Computational Intelligence and Complexity - Mechanical Engineering - Mechanics

Table of contents 

SYMBOLS LIST; III FUNCTIONS AND SPECIFICATIONS: INTRODUCTION TO PART THREE: 17 TRANSPORTATION STATISTICS: 17.1 Traffic volume; 17.2 Operating fleet; 17.3 Social impact; 18 VEHICLE FUNCTIONS: 18.1 Systemdesign; 18.2 Objective requirements; 18.3 Subjective requirements; 18.4 Aging resistance; 19 REGULATIONS: 19.1 Vehicle system; 19.2 Wheels 19.3 Steering system; 19.4 Braking system; 19.5 Structures; 19.6 Gearbox; IV THE CHASSIS AS A PART OF THE VEHICLE SYSTEM: INTRODUCTION TO PART FOUR: 20 GENERAL CHARACTERISTICS: 20.1 Symmetry considerations; 20.2 Reference frames; 20.3 Position of the center of mass; 20.4 Mass distribution among the various bodies; 20.5 Moments of inertia; 21 AN OVERVIEW ON MOTOR VEHICLE AERODYNAMICS: 21.1 Aerodynamic forces andmoments; 21.2 Aerodynamic field around a vehicle; 21.3 Aerodynamic drag ; 21.4 Lift and pitching moment; 21.5 Side force and roll and yawmoments; 21.6 Experimental study of aerodynamic forces; 21.7 Numerical aerodynamics; 22 PRIME MOVERS FOR MOTOR VEHICLES: 22.1 Vehicular engines; 22.2 Internal combustion engines ; 22.3 Electric vehicles; 22.4 Hybrid vehicles; 23 DRIVING DYNAMIC PERFORMANCE: 23.1 Load distribution on the ground; 23.2 Total resistance to motion; 23.3 Power needed for motion; 23.4 Available power at the wheels; 23.5 Maximum power that can be transferred to the road; 23.6 Maximum speed; 23.7 Gradeability and initial choice of the transmission ratios; 23.8 Fuel consumption at constant speed; 23.9 Vehicle take-off from rest; 23.10 Acceleration; 23.11 Fuel consumption in actual driving conditions; 24 BRAKING DYNAMIC PERFORMANCE: 24.1 Braking in ideal conditions; 24.2 Braking in actual conditions; 24.3 Braking power; 25 HANDLING PERFORMANCE: 25.1 Low-speed or kinematic steering; 25.2 Ideal steering; 25.3 High-speed cornering: simplified approach; 25.4 Definition of understeer and oversteer; 25.5 High-speed cornering; 25.6 Steady-state lateral behavior; 25.7 Neutral-steer point and static margin; 25.8 Response to external forces and moments; 25.9 Slip steering; 25.10 Influence of longitudinal forces on handling; 25.11 Transversal load shift; 25.12 Toe-in; 25.13 Effect of the elasto-kinematic behavior of suspensions and of the compliance of the chassis; 25.14 Stability of the vehicle; 25.15 Unstationary motion; 25.16 Vehicles with two steering axles (4WS); 25.17 Articulated vehicles; 25.18 Multibody articulated vehicles; 25.19 Limits of linearized models; 26 COMFORT PERFORMANCE: 26.1 Internal excitation; 26.2 Road excitation; 26.3 Effects of vibration on the human body; 26.4 Quarter-car models; 26.5 Heave and pitch motion; 26.6 Roll motion; 26.7 Effect of nonlinearities; 26.8 Concluding remarks on ride comfort; 27 CONTROL OF THE CHASSIS AND ‘BY WIRE’ SYSTEMS:27.1 Motor vehicle control; 27.2 Models for the vehicle-driver system; 27.3 Antilock (ABS) and antispin (ASR) systems; 27.4 Handling control; 27.5 Suspensions control; 27.6 By wire systems; V MATHEMATICAL MODELLING: INTRODUCTION TO PART FIVE: 28 MATHEMATICAL MODELS FOR THE VEHICLE: 28.1 Mathematical models for design; 28.2 Continuous and discretized models; 28.3 Analytical and numerical models; 29 MULTIBODY MODELLING: 29.1 Isolated vehicle; 29.2 Linearized model for the isolated vehicle; 29.3 Model with 10 degrees of freedom with locked controls; 29.4 Models of deformable vehicles; 29.5 Articulated vehicles; 29.6 Gyroscopic moments and other second order effects; 30 TRANSMISSION MODELS: 30.1 Coupling between comfort and drive line vibration; 30.2 Dynamic model of the engine 30.3 Drive line; 30.4 Inertia of the vehicle; 30.5 Linearized drive line model; 30.6 Non-time-invariant models; 30.7 Multibody drive line models; 31 MODELS FOR TILTING BODY VEHICLES: 31.1 Suspensions for high roll angles; 31.2 Linearized rigid body model; 31.3 Dynamic tilting control; 31.4 Handling-comfort coupling; BIBLIOGRAPHY OF VOLUME 2: A EQUATIONS OF

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