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The Full Course RCT book will help you avoid the trial-and-error approach to chassis setup. It will teach you sound, proven technology that is both easy to understand and easy to use, so you can set up your race car in the shop and see the positive results on the track immediately, with very little tweaking. What follows is a common-sense approach to chassis setup, vehicle dynamics and race-car design, founded on solid engineering theory. However, you will need to have an open mind, and be willing to accept new ideas that may go against previous chassis setup thinking. Just to make it clear, the technology presented here applies to all race cars, from quarter midgets to Formula One and everything in between. This book tends to lean towards stock car racing because it represents most of the world's automobile racing. But know that not only will be useful for all forms of circle track racing from asphalt types to dirt cars, a great deal of the technology applies to all race cars.
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.
Racecar data acquisition used to be limited to well-funded teams in high-profile championships. Today, the cost of electronics has decreased dramatically, making them available to everyone. But the cost of any data acquisition system is a waste of money if the recorded data is not interpreted correctly. This book, updated from the best-selling 2008 edition, contains techniques for analyzing data recorded by any vehicle's data acquisition system. It details how to measure the performance of the vehicle and driver, what can be learned from it, and how this information can be used to advantage next time the vehicle hits the track. Such information is invaluable to racing engineers and managers, race teams, and racing data analysts in all motorsports. Whether measuring the performance of a Formula One racecar or that of a road-legal street car on the local drag strip, the dynamics of vehicles and their drivers remain the same. Identical analysis techniques apply. Some race series have restricted data logging to decrease the team’s running budgets. In these cases it is extremely important that a maximum of information is extracted and interpreted from the hardware at hand. A team that uses data more efficiently will have an edge over the competition. However, the ever-decreasing cost of electronics makes advanced sensors and logging capabilities more accessible for everybody. With this comes the risk of information overload. Techniques are needed to help draw the right conclusions quickly from very large data sets. In addition to updates throughout, this new edition contains three new chapters: one on techniques for analyzing tire performance, one that provides an introduction to metric-driven analysis, a technique that is used throughout the book, and another that explains what kind of information the data contains about the track.
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.
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.
A vintage racing car, walled off in an old barn, is discovered by a boy and rebuilt with his father. Along the way, they discover that the car has a very special history and was once raced by the great Sir Stirling Moss.
The 1960s were a fascinating decade on the race scene. Relive the memories today through this wonderful new book. Drag racing has a long and storied history. Many have said that the first drag race happened shortly after the second car was made. While that may or may not be true, racing prior to World War II was mostly centered around dry-lake activities and top-speed runs. After the war, drag racing became organized with the formation of the NHRA, and during the 1950s, many tracks were built across America to accommodate the racers. Technology in the 1950s centered on the manufacturers updating old flathead designs into newer overhead-valve designs, and the horsepower race really started to heat up. In many forms of racing, the 1960s brought technological evolution. The decade began with big engines in even bigger stock chassis and ended with purpose-built race-only chassis, fiberglass bodies, fuel injection, nitro methane, and blowers. Quarter-mile times that were in the 13-second range in the beginning of the decade were in the 7-second range by the end. New classes were formed, dedicated cars were built for them, and many racers themselves became recognized names in the sports landscape. In Drag Racing in the 60s: The Evolution in Race Car Technology, veteran author Doug Boyce takes you on a ride through the entire decade from a technological point of view rather than a results-based one. Covered are all the classes, including Super Stocks, Altered Wheelbase cars (which led to Funny Cars), Top Fuelers, Gassers, and more.
Stock car racing in the 1960s featured intense behind the scenes battles between the factories, rules makers, track owners, promoters, and racing teams. Everyone was trying to keep up with the rapid year-to-year changes that brought more cubic inches, more horsepower, smoother shapes, and faster cars. The fans were the beneficiary as they were treated to incredible competition and incredible race cars. The '60s were a sensational era of stock car racing that will never be seen again. Factory engineers produced wild and powerful stock cars that raced in shootouts from Southern dirt and small ovals to bigger and bigger super-speedways. The racer's edge sought by each factory led one small team after another to pack up and pull out. This was the era of back-door racer support from General Motors, Ford's "Total Performance" agenda to win everything, and Chrysler's fantastic Hemi-powered stockers. Special racing engines and exotic prototypes with advanced concepts that never saw the light of day all added up to fantastic drama and incredible racing, all told in these pages.
A Practical Guide to Race Car Data Analysis was written for the amateur and lower-level professional racers who either have a data system in their cars or who may be thinking about installing one but who do not have access to an experienced data engineer. Many of the data systems available today at reasonable prices offer capabilities that only professional race teams could afford just a few years ago. Unfortunately, most of these racers do not know how to use more than a small part of those capabilities. Using real track data, numerous real-world examples, and more than 200 illustrations, the Guide gives them the knowledge and skills they need to select, configure and use their data systems efficiently and effectively.Beginning with a detailed discussion of the things racers need to know about the hardware and software necessary for a an effective data system, the Guide continues with chapters on basic data analysis tools, more sophisticated data analysis tools like x-y plots and math channels, damper potentiometers and the wealth of important data they produce, brake and clutch pressure sensors, and creative use of math channels. The Guide concludes with a comprehensive scheme for analyzing data, examples of the data views used with the scheme, and detailed information on how to create and configure the data views.