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Dialogue between one of the world's most experienced racing car designers and a technical author-graduate engineer on the theory and technique of racing car design and development. Contents include: The anatomy of a racing car designer; biography of Len Terry; description of nearly 30 Terry designs from clubman's sports car to Indianapolis winner; a blank sheet of paper; handling characteristics; the theoretical aspects; oversteer and understeer; practical implications; structural considerations; space-frames and monocoques; the cockpit area; the structural engine; progress and legislation; suspension; changing needs and layouts; the torsion bar; self-levelling systems; anti-dive and anti-squat; progressive-rate springing; stiffness/weight ratio; brakes, wheels and tires; influence of smaller wheels; twin-disc brake systems; attention to details; low-profile tire phenomena; aerodynamics; wings and things; intake ram effect; ground effect vehicles; the cooling system; radiator location; cooling the oil; safety and comfort; primary and secondary safety; driver comfort; materials; components-ball joints, batteries, brakes, clutches, dampers, drive-shafts, electrics, flexible bearings, flexible fuel cells, gearshift linkages, instruments, non-return valves, non-spill fuel fillers, oil and fuel pipes, Perspex mouldings, radiators, springs and steering gear; design versus development; the competition-nine other racing car designers discussed; future developments.
After building his first race cars out of southern Louisiana junkyards, Bob Riley quickly established himself as a leading light, if not genius, when it came to race car design. His first major suspension design helped Henry Ford II make good on his vendetta to beat Enzo Ferrari at Le Mans. Riley's first radical Indy car designs with its ingenious center hub mounted suspension resulted in A.J. Foyt's landmark fourth victory at the Indianapolis 500 in 1977. Since then, Riley has continued to be at the heart of the world of motorsports, working with its most famous drivers at the biggest events, including the Daytona 500, where his engineering helped Dale Earnhardt finally win NASCAR's marquee event. Americans love the "genius" angle like everyone else. They love winners. Sports stars are overtaking Hollywood these days in popularity. Racing readers are a small but predictable group and suspect the generation familiar with Bob's exploits at Indy would be keen on a book like this. They're the same age group pumping up the vintage magazine market and the collectible car market.
Hand-selected by racing engineer legend Carroll Smith, the 28 SAE Technical Papers in this book focus on the chassis and suspension design of pure racing cars, an area that has traditionally been - farmed out - to independent designers or firms since the early 1970s. Smith believed that any discussion of vehicle dynamics must begin with a basic understanding of the pneumatic tire, the focus of the first chapter. The racing tire connects the racing car to the track surface by only the footprints of its four tires. Through the tires, the driver receives most of the sensory information needed to maintain or regain control of the race car at high force levels. The second chapter, focusing on suspension design, is an introduction to this complex and fascinating subject. Topics covered include chassis stiffness and flexibility, suspension tuning on the cornering of a Winston Cup race car, suspension kinematics, and vehicle dynamics of road racing cars. Chapter 3 addresses the design of the racing chassis design and how aerodynamics affect the chassis, and the final chapter on materials brings out the fact that the modern racing car utilizes carbon construction to the maximum extent allowed by regulations. These technical papers, written between 1971 and 2003, offer what Smith believed to be the best and most practical nuggets of racing chassis and suspension design information.
Based on the principles of engineering science, physics and mathematics, but assuming only an elementary understanding of these, this textbook masterfully explains the theory and practice of the subject. Bringing together key topics, including the chassis frame, suspension, steering, tyres, brakes, transmission, lubrication and fuel systems, this is the first text to cover all the essential elements of race car design in one student-friendly textbook. It avoids the pitfalls of being either too theoretical and mathematical, or else resorting to approximations without explanation of the underlying theory. Where relevant, emphasis is placed on the important role that computer tools play in the modern design process. This book is intended for motorsport engineering students and is the best possible resource for those involved in Formula Student/FSAE. It is also a valuable guide for practising car designers and constructors, and enthusiasts.
The first book to summarize the secrets of the rapidly developing field of high-speed vehicle design. From F1 to Indy Car, Drag and Sedan racing, this book provides clear explanations for engineers who want to improve their design skills and enthusiasts who simply want to understand how their favorite race cars go fast. Explains how aerodynamics win races, why downforce is more important than streamlining and drag reduction, designing wings and venturis, plus wind tunnel designs and more.
Covers the development and tuning of race car by clearly explaining the basic principles of vehicle dynamics and relating these principles to the input and control functions of the racing driver. An exceptional book written by a true professional.
This book details how to design, build, and setup the chassis and suspension for road race and stock cars. Includes chassis dynamics, spring and shock theory, front and rear suspension geometry, real world racing aerodynamics, steering systems, racing chassis software and all you need to know to set you chassis up to win races.
Explains how a Formula One automobile is designed, built, and raced, and covers the business plan, driver selection, computer-assisted design, windtunnel testing, aerodynamics, safety engineering, and pre-race testing
A best seller and winner of the Antique Automobile Club of America's prestigious Thomas McKean Award.The Golden Age of the American Racing Car emphasizes the human side of racing history, offering insight into the men who shaped the golden age. Covering a period of time from the 1910s through the 1930s, the book describes the historical development of race car technology and presents fascinating information on race courses, designers, builders, drivers, and events. Racing pioneers covered include: Fred Duesenberg, Louis Chevrolet, Harry Miller, Leo Goossen, and Fred Offenhauser.