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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.
The differences between running an Indy car on a road circuit and an oval are covered, as is the struggle to get the best from a car for the Indy 500 - a task which is described with unusual clarity. Nigel also describes the story of the ‘Big Beast’ – the Mercedes pushrod engine that won the 1994 Indy 500. Sharing in detail his own view of the importance of suspension geometry, and how it deviates from present practices, this book also includes personal views on the Penske years from a number of motor sport figures, and those of a rival Indy car designer Bruce Ashmore. A fascinating first-hand behind-the-scenes insight. Included in the story is considerable detail of Nigel’s eight years spent with the Firestone European Racing Division, covering an area vital to racing car performance, plus the relationship between a tyre company and its leading contracted team. The 60s and 70s were rife with tyre wars, and many interesting stories unfolded during those decades. With descriptions of the importance of the Race Engineer to the driver, and to a team’s competitiveness, Nigel Bennett draws on his years of experience to offer detailed insight to how an engineer worked with a car and tuned its set-up in an era before computer readouts and telemetry came to dominate.
Winner of the 2014 Dean Batchelor Award, Motor Press Guild "Book of the Year" Short-listed for 2015 PEN / ESPN Literary Award for Sports Writing Before noon on May 30th, 1964, the Indy 500 was stopped for the first time in history by an accident. Seven cars had crashed in a fiery wreck, killing two drivers, and threatening the very future of the 500. Black Noon chronicles one of the darkest and most important days in auto-racing history. As rookie Dave MacDonald came out of the fourth turn and onto the front stretch at the end of the second lap, he found his rear-engine car lifted by the turbulence kicked up from two cars he was attempting to pass. With limited steering input, MacDonald lost control of his car and careened off the inside wall of the track, exploding into a huge fireball and sliding back into oncoming traffic. Closing fast was affable fan favorite Eddie Sachs. "The Clown Prince of Racing" hit MacDonald's sliding car broadside, setting off a second explosion that killed Sachs instantly. MacDonald, pulled from the wreckage, died two hours later. After the track was cleared and the race restarted, it was legend A. J. Foyt who raced to a decisive, if hollow, victory. Torn between elation and horror, Foyt, along with others, championed stricter safety regulations, including mandatory pit stops, limiting the amount a fuel a car could carry, and minimum-weight standards. In this tight, fast-paced narrative, Art Garner brings to life the bygone era when drivers lived hard, raced hard, and at times died hard. Drawing from interviews, Garner expertly reconstructs the fateful events and decisions leading up to the sport's blackest day, and the incriminating aftermath that forever altered the sport. Black Noon remembers the race that changed everything and the men that paved the way for the Golden Age of Indy car racing.
For many years, the evolution of safety improvements in motorsports was the result of a combination of science and perceived safe practices. Most safety developments were not based on rigorous laboratory testing, but rather on intuition and a “let’s try it and see what happens” approach. During the last few decades, motorsports has benefited from the organized research efforts made possible by academia, manufacturers, and sanctioning bodies, leading to present-day motorsports safety methodologies based on solid data and testing. This compendium, edited by some of the foremost racing safety experts, comprises selected technical papers that document the development and implementation of key motorsports safety technologies now in use. It is intended to provide racing professionals and enthusiasts with a concise overview of the significant engineering developments in motorsports driver safety that has occurred during the past two decades. The 13 papers chosen for this compendium, published between 1990 and 2013, reflect landmark safety studies and developments of that time. Eleven of the papers were published by SAE International and two were presented at the Stapp Car Crash Conference. The papers cover the following topics: • Crash testing simulations • Human crash injury and survival • Reducing driver injury in severe crashes • Head and neck restraints, including the HANS device • Race car seats • Restraint systems • Track safety and barrier systems The final paper is a study on the detailed performance of restraint systems and seats in examples of severe stock car crashes. The paper represents a succinct example of modern crash investigation of racing crashes with crash recording data, detailed injury analysis, and protective system performance. The progress in motorsports safety, as described in this compendium, has been dramatically effective in reducing driver injuries at the top levels of motorsports. Unfortunately, this is not true at the lower levels, where drivers continue to suffer preventable injuries and fatalities.
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
Beast was the nickname of a shocking new race engine unveiled for the 1994 Indianapolis 500. The massive effort to design and build it in a seemingly impossible timeframe is still hailed as one of the most herculean efforts and well-kept secrets in the history of the Indy 500. In the award-winning book, Beast, bestselling author Jade Gurss chronicles the subterfuge and debunks the myths about this legendary power plant that persist twenty years on. Gurss interviewed key players involved in the race to uncover the story of how this engine powered the Penske PC23 chassis to one of the most talked-about Indy 500 races in history. The British race-engine experts at Ilmor Engineering offer detail about the design and manufacture of the engine. Roger Penske's team reveals how the engine and car were tested and developed, and how Mercedes came to be involved in the project. The story unfolds as Roger Penske and Mario Illien and Paul Morgan of Ilmor play every card they possess to create an incredible race engine--even rare World War II fighter planes and supersonic jets roar into the heart of this high-tech tale. Drivers Al Unser Jr. of the United States and Paul Tracy of Canada provide details on the tense weeks leading up to race day. The book reaches a suspenseful climax at 240 miles per hour at the Indy 500 noone can forget. Wrapped up in the drama and intrigue are real business and motivational lessons which made Roger Penske one of the most successful businessmen in the world and that helped Ilmor and its cofounders, Mario Illien and the late Paul Morgan, design and manufacture Indy car and Formula 1 championship-winning engines. Beast is not only a must-read for sports and race fans, but a compelling narrative for those who enjoy genuine lessons in business and technology or thrilling mysteries based on actual events.
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.
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.