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Bicycle Engineering and Technology is a primer and technical introduction for anyone interested in bicycles, bicycling and the bicycle industry. With insight into how bicycles are made and operated, the book covers the engineering materials used for their manufacture and the technicalities of riding. It also discusses ways in which the enthusiast may wish to get involved in the business of working with these fantastic machines, which are now being aided with electrical power. The bicycle is a significant factor in transportation around the world and is playing an increasingly crucial role in transport policy as we collectively become more environmentally conscious. To celebrate the importance of the bicycle on the world stage, a brief history is included along with a detailed timeline showing the development of the bicycle with major world events. Previous knowledge of engineering or technology is not required to enjoy this text, as all technical terms are explained and a full glossary and lists of abbreviations are included. Whether you are a bicycling enthusiast, racer, student or bicycle professional, you will surely want to read it and keep it on your shelf as a handy reference.
The bicycle is almost unique among human-powered machines in that it uses human muscles in a near-optimum way. This new edition of the bible of bicycle builders and bicyclists provides just about everything you could want to know about the history of bicycles, how human beings propel them, what makes them go faster, and what keeps them from going even faster. The scientific and engineering information is of interest not only to designers and builders of bicycles and other human-powered vehicles but also to competitive cyclists, bicycle commuters, and recreational cyclists. The third edition begins with a brief history of bicycles and bicycling that demolishes many widespread myths. This edition includes information on recent experiments and achievements in human-powered transportation, including the "ultimate human- powered vehicle," in which a supine rider in a streamlined enclosure steers by looking at a television screen connected to a small camera in the nose, reaching speeds of around 80 miles per hour. It contains completely new chapters on aerodynamics, unusual human-powered machines for use on land and in water and air, human physiology, and the future of bicycling. This edition also provides updated information on rolling drag, transmission of power from rider to wheels, braking, heat management, steering and stability, power and speed, and materials. It contains many new illustrations.
Mike Burrows is a legend and this is the long awaited masterwork - revised and updated in this new edition - from the world's most famous and irreverent bicycle designer and inventor.
This new edition of John Forester's handbook for transportation policy makers and bicycling advocates has been completely rewritten to reflect changes of the last decade. It includes new chapters on European bikeway engineering, city planning, integration with mass transit and long-distance carriers, "traffic calming," and the art of encouraging private-sector support for bicycle commuting. A professional engineer and an avid bicyclist, John Forester combined those interests in founding the discipline of cycling transportation engineering, which regards bicycling as a form of vehicular transportation equal to any other form of transportation. Forester, who believes that riding a bicycle along streets with traffic is safer than pedaling on restricted bike paths and bike lanes, argues the case for cyclists' rights with zeal and with statistics based on experience, traffic studies, and roadway design standards. Over the nearly two decades since Bicycle Transportation was first published, he has brought about many changes in the national standards for highways, bikeways, bicycles, and traffic laws. His Effective Cycling Program continues to grow.
Investigating the scientific wonders that keep the cyclist in the saddle and explaining how the bike and rider work together, this fascinating book is the perfect way to analyse your own kit and technique by showing you the techniques of the professionals. Each chapter investigates a different area of physics or technology and is organised around a series of questions; What is the frame design? How have bicycle wheels evolved? What muscle groups does cycling exploit? How much power does a professional cyclist generate? Each question is investigated using explanatory infographics and illustrations to clarify the answers. Dip into the book for answers to specific questions or read it right through for a complete overview of how machine and rider work together. At its heart, the simple process of getting about on two wheels contains a wealth of fascinating science.
An authoritative and comprehensive account of the bicycle's two-hundred-year evolution. The bicycle ranks as one of the most enduring, most widely used vehicles in the world, with more than a billion produced during almost two hundred years of cycling history. This book offers an authoritative and comprehensive account of the bicycle's technical and historical evolution, from the earliest velocipedes (invented to fill the need for horseless transport during a shortage of oats) to modern racing bikes, mountain bikes, and recumbents. It traces the bicycle's development in terms of materials, ergonomics, and vehicle physics, as carried out by inventors, entrepreneurs, and manufacturers. Written by two leading bicycle historians and generously illustrated with historic drawings, designs, and photographs, Bicycle Design describes the key stages in the evolution of the bicycle, beginning with the counterintuitive idea of balancing on two wheels in line, through the development of tension-spoked wheels, indirect drives (employing levers, pulleys, chains, and chainwheels), and pneumatic tires. The authors examine the further development of the bicycle for such specific purposes as racing, portability, and all-terrain use; and they describe the evolution of bicycle components including seats, transmission, brakes, lights (at first candle-based), and carriers (racks, panniers, saddlebags, child seats, and sidecars). They consider not only commercially successful designs but also commercial failures that pointed the way to future technological developments. And they debunk some myths about bicycles—for example, the mistaken but often-cited idea that Leonardo sketched a chain-drive bike in his notebooks. Despite the bicycle's long history and mass appeal, its technological history has been neglected. This volume, with its engaging and wide-ranging coverage, fills that gap. It will be the starting point for all future histories of the bicycle.
This book helps the interested cyclist select the best components and gives technical insights into the way they work. Essential background information for anyone interested in the technical aspects of the modern bike and its development throughout history. Illustrated with over 900 line drawings and photographs with clear explanatory captions.
"The purpose of this book is to provide an introduction to materials science and engineering, the subject matter of which is taught not only in departments bearing that name, but also in departments of ceramics, polymer science, mechanical engineering, chemical engineering, civil engineering, physics, chemistry, and others. The field is so broad that it cannot possibly be represented fully in a one-semester introductory course, especially one which uses the kind of giant case-study method used here. The advantage of a case study is that it immediately immerses the student in a context which helps one to assimilate new information in an existing conceptual framework. Thus, the student can see the "big picture" from the outset and be able to understand how the subject fits together and is used. A disadvantage is that the various parts of the subject cannot all receive the amount of attention which practitioners of all those parts would feel they deserve. The student, therefore, should be aware that the fact that metallic materials have here recieved more space than polymeric, ceramic, or semiconducting materials, results, not from the relative importance of the latter three, but only from their present usage in the cases considered here."
A new, updated edition of a popular book on the history, science, and engineering of bicycles. The bicycle is almost unique among human-powered machines in that it uses human muscles in a near-optimum way. This new edition of the bible of bicycle builders and bicyclists provides just about everything you could want to know about the history of bicycles, how human beings propel them, what makes them go faster, and what keeps them from going even faster. The scientific and engineering information is of interest not only to designers and builders of bicycles and other human-powered vehicles but also to competitive cyclists, bicycle commuters, and recreational cyclists. The third edition begins with a brief history of bicycles and bicycling that demolishes many widespread myths. This edition includes information on recent experiments and achievements in human-powered transportation, including the "ultimate human- powered vehicle," in which a supine rider in a streamlined enclosure steers by looking at a television screen connected to a small camera in the nose, reaching speeds of around 80 miles per hour. It contains completely new chapters on aerodynamics, unusual human-powered machines for use on land and in water and air, human physiology, and the future of bicycling. This edition also provides updated information on rolling drag, transmission of power from rider to wheels, braking, heat management, steering and stability, power and speed, and materials. It contains many new illustrations.
This book crystallizes and extends the important work Wiebe Bijker has done in the last decade to found a full-scale theory of sociotechnical change that describes where technologies come from and how societies deal with them. Of Bicycles, Bakelites, and Bulbs integrates detailed case studies with theoretical generalizations and political analyses to offer a fully rounded treatment both of the relations between technology and society and of the issues involved in sociotechnical change. The stories of the the safety bicycle, the first truly synthetic plastic, and the fluorescent light bulb—each a fascinating case study in itself—reflect a cross section of time periods, engineering and scientific disciplines, and economic, social, and political cultures. The bicycle story explores such issues as the role of changing gender relationships in shaping a technology; the Bakelite story examines the ways in which social factors intrude even in cases of seemingly pure chemistry and entrepreneurship; and the fluorescent bulb story offers insights into the ways in which political and economic relationships can affect the form of a technology. Bijker's method is to use these case studies to suggest theoretical concepts that serve as building blocks in a more and more inclusive theory, which is then tested against further case studies. His main concern is to create a basis for science, technology, and social change that uncovers the social roots of technology, making it amenable to democratic politics.