Fully updated and in line with latest specifications, this textbook integrates vehicle maintenance procedures, making it the indispensable first classroom and workshop text for all students of motor vehicle engineering, apprentices and keen amateurs. Its clear, logical approach, excellent illustrations and step-by-step development of theory and practice make this an accessible text for students of all abilities. With this book, students have information that they can trust because it is written by an experienced practitioner and lecturer in this area. This book will provide not only the information required to understand automotive engines but also background information that allows readers to put this information into context. The book contains flowcharts, diagnostic case studies, detailed diagrams of how systems operate and overview descriptions of how systems work. All this on top of step-by-step instructions and quick reference tables. Readers won't get bored when working through this book with questions and answers that aid learning and revision included.
The overall goal of vehicle design is to make a robust and reliable product that meets the demands of the customers and this book treats the topic of analysing and describing customer loads with respect to durability. Guide to Load Analysis for Vehicle and Durability Engineering supplies a variety of methods for load analysis and also explains their proper use in view of the vehicle design process. In Part I, Overview, there are two chapters presenting the scope of the book as well as providing an introduction to the subject. Part II, Methods for Load Analysis, describes useful methods and indicates how and when they should be used. Part III, Load Analysis in view of the Vehicle Design Process, offers strategies for the evaluation of customer loads, in particular characterization of customer populations, which leads to the derivation of design loads, and finally to the verification of systems and components. Key features: • Is a comprehensive collection of methods for load analysis, vehicle dynamics and statistics • Combines standard load data analysis methods with statistical aspects on deriving test loads from surveys of customer usage • Sets the methods used in the framework of system dynamics and response, and derives recommendations for the application of methods in engineering practice • Presents a reliability design methodology based on statistical evaluation of component strength and customers loads • Includes case studies and illustrative examples that translate the theory into engineering practice Developed in cooperation with six European truck manufacturers (DAF, Daimler, Iveco, MAN, Scania and Volvo) to meet the needs of industry, Guide to Load Analysis for Vehicle and Durability Engineering provides an understanding of the current methods in load analysis and will inspire the incorporation of new techniques in the design and test processes.
More than 500 detailed illustrations enhance this contemporary guide to the inner workings and mechanics of turn-of-the-century automobiles, trucks, and motorcycles. Released in 1911 as "Self-Propelled Vehicles: A Practical Treatise," James Homans' spectacular, all-encompassing book about the fascinating world of gas-powered, electric-powered, and steam-powered motor vehicles leaves no stone unturned in its celebration of the classic automobile. Classic car collectors, racers, and enthusiasts will enjoy this thorough look under the hood as Homans dissects every part of the "horseless carriage" from a unique and contemporary viewpoint that offers a keen insight into the bygone age of dramatic motoring. Antique Cars and Motor Vehicles spans more than 640 pages, immersing readers in a world of automotive history, vehicle parts, driving gears, steering, suspension, engines, exhaust, and even old fashioned American road signs. The hundreds of Images of cars, engines, parts, and mechanic operations are crisp and detailed, created by skilled master artists with a sharp eye for detail. It's everything that you ever wanted to know about classic motoring in a single, entertaining, and well-illustrated volume! This enhanced 2020 re-release features enlarged 7" x 10" pages that retain the original classic type font and page layouts, crisp, digitally re-scanned images, and a new retro cover design created to enhance your reading room and garage. Table of Contents: Chapter 1 - History of Self-Powered Vehicles Chapter 2 - The Make-Up of a Motor Carriage Chapter 3 - Compensation and Compensating Devices Chapter 4 - The Driving Car Chapter 5 - The Steering of a Motor Vehicle Chapter 6 - Combined Steering and Driving Chapter 7 - The Supports of a Motor Vehicle Chapter 8 - Motor Carriage Wheels Chapter 9 - Tires Chapter 10 - The Construction of Tires Chapter 11 - Pneumatic Tire Troubles Chapter 12 - Care of Pneumatic Tires Chapter 13 - Types and Merits of Automobiles Chapter 14 - The Theory of Heat Engines Chapter 15 - The Parts of a Gas Engine Chapter 16 - The Four-Cycle Gas Engine Chapter 17 - The Two-Cycle Gas Engine Chapter 18 - Compression and Expansion Chapter 19 - Efficiency in a Gas Engine Chapter 20 - Exhaust Chapter 21 - Water Cooling for the Cylinder Chapter 22 - Air Cooling for the Cylinder Chapter 23 - Power Elements of a Gas Engine Chapter 24 - Carburetors Chapter 25 - Ignition Chapter 26 - Balancing Gasoline Engines Chapter 27 - Governing and Control of a Gasoline Engine Chapter 28 - Clutches Chapter 29 - Transmissions Chapter 30 - Brakes Chapter 31 - Roller Bearings Chapter 32 - Lubricants Chapter 33 - Practical Operation of Gasoline Engines Chapter 34 - Motorcycles Chapter 35 - Steam Engines for Automobiles Chapter 36 - Boilers and Flash Generators
Do you know how your car works? This book dissects and explains one of the finest inventions ever made. Written in a simple, jargon-free language and packed with illustrations and cutaways, it will suit everyone wishing to know more about what makes their car work.
The automotive industry is under constant pressure to design vehicles capable of meeting increasingly demanding challenges such as improved fuel economy, enhanced safety and effective emission control. Drawing on the knowledge of leading experts, Advanced materials in automotive engineering explores the development, potential and impact of using such materials.Beginning with a comprehensive introduction to advanced materials for vehicle lightweighting and automotive applications, Advanced materials in automotive engineering goes on to consider nanostructured steel for automotive body structures, aluminium sheet and high pressure die-cast aluminium alloys for automotive applications, magnesium alloys for lightweight powertrains and automotive bodies, and polymer and composite moulding technologies. The final chapters then consider a range of design and manufacturing issues that need to be addressed when working with advanced materials, including the design of advanced automotive body structures and closures, technologies for reducing noise, vibration and harshness, joining systems, and the recycling of automotive materials.With its distinguished editor and international team of contributors, Advanced materials in automotive engineering is an invaluable guide for all those involved in the engineering, design or analysis of motor vehicle bodies and components, as well as all students of automotive design and engineering. - Explores the development, potential and impact of using advanced materials for improved fuel economy, enhanced safety and effective mission control in the automotive industry - Provides a comprehensive introduction to advanced materials for vehicle lightweighting and automotive applications - Covers a range of design ideas and manufacturing issues that arise when working with advanced materials, including technologies for reducing noise, vibration and harshness, and the recycling of automotive materials
This book presents essential knowledge of car vehicle dynamics and control theory with NI LabVIEW software product application, resulting in a practical yet highly technical guide for designing advanced vehicle dynamics and vehicle system controllers. Presenting a clear overview of fundamental vehicle dynamics and vehicle system mathematical models, the book covers linear and non-linear design of model based controls such as wheel slip control, vehicle speed control, path following control, vehicle stability and rollover control, stabilization of vehicle-trailer system. Specific applications to autonomous vehicles are described among the methods. It details the practical applications of Kalman-Bucy filtering and the observer design for sensor signal estimation, alongside lateral vehicle dynamics and vehicle rollover dynamics. The book also discusses high level controllers, alongside a clear explanation of basic control principles for regenerative braking in both electric and hybrid vehicles, and wheel torque vectoring systems. Concrete LabVIEW simulation examples of how the models and controls are used in representative applications, along with software algorithms and LabVIEW block diagrams are illustrated. It will be of interest to engineering students, automotive engineering students and automotive engineers and researchers.
The automotive industry appears close to substantial change engendered by “self-driving” technologies. This technology offers the possibility of significant benefits to social welfare—saving lives; reducing crashes, congestion, fuel consumption, and pollution; increasing mobility for the disabled; and ultimately improving land use. This report is intended as a guide for state and federal policymakers on the many issues that this technology raises.
Modern cars are more computerized than ever. Infotainment and navigation systems, Wi-Fi, automatic software updates, and other innovations aim to make driving more convenient. But vehicle technologies haven’t kept pace with today’s more hostile security environment, leaving millions vulnerable to attack. The Car Hacker’s Handbook will give you a deeper understanding of the computer systems and embedded software in modern vehicles. It begins by examining vulnerabilities and providing detailed explanations of communications over the CAN bus and between devices and systems. Then, once you have an understanding of a vehicle’s communication network, you’ll learn how to intercept data and perform specific hacks to track vehicles, unlock doors, glitch engines, flood communication, and more. With a focus on low-cost, open source hacking tools such as Metasploit, Wireshark, Kayak, can-utils, and ChipWhisperer, The Car Hacker’s Handbook will show you how to: –Build an accurate threat model for your vehicle –Reverse engineer the CAN bus to fake engine signals –Exploit vulnerabilities in diagnostic and data-logging systems –Hack the ECU and other firmware and embedded systems –Feed exploits through infotainment and vehicle-to-vehicle communication systems –Override factory settings with performance-tuning techniques –Build physical and virtual test benches to try out exploits safely If you’re curious about automotive security and have the urge to hack a two-ton computer, make The Car Hacker’s Handbook your first stop.
