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Viewing 1 to 30 of 32
2017-03-14
Book
This is the electronic format of the Journal.
2015-04-20
Book
Masato Abe
Vehicle dynamics are vital for optimizing a vehicle’s drivability, efficiency, and safety. Understanding the forces and motions on a vehicle (both theoretical aspects, like basic equations of motion, and practical ones, like tire mechanics and human vehicle control) is integral in the design and development of all vehicles. Masato Abe’s Vehicle Handling Dynamics, Second Edition, provides comprehensive coverage of vehicle dynamics, enabling readers to visualize and invent better vehicles. This title presents an overview of the fundamental theories of vehicle handling dynamics, based on simple equations of motion, expanding on driver-vehicle behavior, handling quality and active vehicle motion control. In addition, this new edition includes two new chapters. Chapter 9 covers vehicle motion control for electric vehicles, crucial in this new era of automobiles.
2015-03-09
Book
Randy Beikmann
As a gearhead, you have a secret advantage when it comes to understanding physics: you see it at work every time you solve a problem with your car or watch a motorsports event. The experience you already have tuning cars or motorcycles is your virtual physics lab. Physics for Gearheads will show you that if you can learn about cars, you can learn about physics. Whether your interest is in increasing your engine's horsepower, getting more miles per gallon, or shaving tenths off your lap time on track day, you can use physics to gain insight into the problem and formulate a solution. Physics for Gearheads not only explains physics principles in language you can understand, it demonstrates how to use physics to your advantage. Note on the units of measurement used in Physics for Gearheads: This book outfits the reader to work in SI or British Engineering units.
2014-01-01
Book
Michael Spektor
Solving Engineering Problems in Dynamics helps practicing engineers successfully analyze real mechanical systems by presenting comprehensive methods for analyzing the motion of engineering systems and their components. This analysis covers three basic phases: 1) composing the differential equation of motion; 2) solving the differential equation of motion; and 3) analyzing the solution. Although a formal engineering education provides the fundamental skills for completing these phases, many engineers nonetheless would benefit by gaining further insight in using these fundamentals to solve real-life engineering problems. This book thus describes in step-by-step order the methods related to each of these phases.
2012-09-24
Book
Daniel Williams
Commercial vehicles must transport an increasing volume of freight on a relatively fixed infrastructure. Some of these vehicles are highly specialized and customized to perform particular tasks. One way to increase freight hauling efficiency is to allow longer vehicles with more axles. These vehicles will have different handling properties and must be driven on existing infrastructure. Longer term, autonomous-like vehicles could be used to increase vehicle utilization. In both cases characterizations of multi-axle vehicle dynamics are required. A two-dimensional yaw plane model is used in practice to analyze handling performance of two-axle passenger cars. Commonly known as the "bicycle" model because it combines all tire forces associated with a given axle to act on the centerline of the vehicle, the yaw plane model allows lateral velocity and yaw rate degrees of freedom.
2012-04-11
Book
Hans Pacejka
In this new paperback edition of Tire and Vehicle Dynamics, theory is supported by practical and experimental evidence. Pacejka provides both basic and advanced explanations of the pneumatic tire and its impact on vehicle dynamic performance. The book shows the way in which tire models are incorporated in vehicle models and how important tire influence is on overall vehicle behavior. Those working in any industry involving equipment with tires will continue to find this book both extremely relevant and useful.
2012-04-01
Book
The SAE International Journal of Passenger Cars- Mechanical Systems backfile includes online access to all published papers from 2008 through last year. The SAE International Journal of Passenger Cars- Mechanical Systems is the predominant scholarly publication for research and developments relating to the mechanical systems of light-duty, on-road passenger vehicles. Topics related to commercial vehicles, engines, and safety are covered by other SAE journals and thus are mostly excluded. The Journal rigorously peer reviews and rapidly disseminates authoritative, non-biased original research --theoretical and applied-- and informative case studies with respect to the mechanical systems which comprise modern on-road automobiles. Only those outstanding and archival technical papers which either advance the state of the art or insightfully piece together prior research in ways which increase automotive understanding are selected for inclusion in this journal.
2012-04-01
Book
Hans B. Pacejka
Encompassing the latest developments on tire mechanics, this definitive third edition combines theory, guidance, discussion and insight in one comprehensive reference. In this well-known resource, the author, leading tire model expert Hans Pacejka, explains the relationship between operational variables, vehicle variables and tire modeling, taking you on a journey through the effective modeling of complex tire and vehicle dynamics problems.
2011-01-01
Book
Chuck Edmondson
Revving engines, smoking tires, and high speeds. Car racing enthusiasts and race drivers alike know the thrill of competition, the push to perform better, and the agony—and dangers—of bad decisions. But driving faster and better involves more than just high horsepower and tightly tuned engines. Physicist and amateur racer Chuck Edmondson thoroughly discusses the physics underlying car racing and explains just what's going on during any race, why, and how a driver can improve control and ultimately win. The world of motorsports is rich with excitement and competition—and physics. Edmondson applies common mathematical theories to real-world racing situations to reveal the secrets behind successful fast driving. He explains such key concepts as how to tune your car and why it matters, how to calculate 0 to 60 mph times and quarter-mile times and why they are important, and where, when, why, and how to use kinematics in road racing.
2010-04-30
Book
This set includes: SAE International Journal of Aerospace March 2010 - Volume 2 Issue 1 SAE International Journal of Commercial Vehicles October 2009 - Volume 2, Issue 1 March 2010 - Volume 2, Issue 2 SAE International Journal of Engines October 2009 - Volume 2, Issue 1 March 2010 - Volume 2, Issue 2 SAE International Journal of Fuels and Lubricants October 2009 - Volume 2, Issue 1 March 2010 - Volume 2, Issue 2 SAE International Journal of Materials and Manufacturing October 2009 - Volume 2, Issue 1 March 2010 - Volume 2, Issue 2 SAE International Journal of Passenger Cars - Electronic and Electrical Systems October 2009 - Volume 2, Issue 1 SAE International Journal of Passenger Cars - Mechanical Systems October 2009 - Volume 2, Issue 1 March 2010 - Volume 2, Issue 2
2010-04-28
Book
Rao V. Dukkipati, Jian Pang, Mohamad S. Qatu, Gang Sheng Chen, Zuo Shuguang
This set combines the book Road Vehicle Dynamics with its corresponding workbook companion, Road Vehicle Dynamics: Problems and Solutions. Road Vehicle Dynamics provides a detailed overview of the dynamics of road vehicle systems, giving readers an understanding of how physical laws, human factor considerations, and design choices affect ride, handling, braking, acceleration, and vehicle safety. Chapters cover analysis of dynamic systems, tire dynamics, ride dynamics, vehicle rollover analysis, handling dynamics, braking, acceleration, total vehicle dynamics, and accident reconstruction. The workbook will enable students and professionals from a variety of disciplines to engage in problem-solving exercises based on the material covered in each chapter of that book. It presents systematic rules of analysis that students can follow in a step-by-step manner to understand the efficiencies or shortcomings of various techniques.
2010-04-13
Book
Rao V. Dukkipati, Jian Pang, Mohamad S. Qatu, Gang Sheng Chen, Zuo Shuguang
This workbook, a companion to the book Road Vehicle Dynamics, will enable students and professionals from a variety of disciplines to engage in problem-solving exercises based on the material covered in each chapter of that book. Emphasizing application more than theory, the workbook presents systematic rules of analysis that students can follow in a step-by-step manner to understand the efficiencies or shortcomings of various techniques. Readers will gain a greater understanding of the factors influencing ride, handling, braking, acceleration, and vehicle safety.
2010-04-01
Book
This 207-page e-book gives unique insight into the cutting-edge technical developments from Honda's worldwide R&D team. The 27 papers included in this volume chronicle the best of Honda's documented technical advancements from October 2009 through April 2010 and cover automotive, motorcycle, power products, and other fundamental technologies. Full-color diagrams complement the text. Title highlights include: Styling Development of the New Model CR-Z Honda Small Hybrid Sports Car Development of the New Honda Techmatic System Development of the New Honda 6-Speed Automatic Transmission for MDX Next Generation Vehicle Safety System Research via Wireless Communication Research in Technology for Simulating Dynamic Behavior of Cam Drive Mechanisms in Single Cylinder Engines Development of NOx Reduction System Based on Exhaust Valve Controls for Use in Small Motorcycle Engines This publication is also conveniently available for purchase in individual chapters.
2009-10-01
Book
This 181-page e-book gives unique insight into the cutting-edge technical developments from Honda's worldwide R&D team. The 25 papers included in this volume chronicle the best of Honda's documented technical advancements from April through October 2009 and cover automotive, motorcycle, power products, and other fundamental technologies. Full-color diagrams complement the text. Title highlights include: Style and Design of the New Model INSIGHT Development of Flexible-Fuel Motorcycle Vehicle Dynamics Simulation in Extreme Driving Conditions In-line Recycling Technology for AZ91D Magnesium Alloy Small, Thin-film Electric Potential Sensor for In-situ Evaluation of Fuel Cell Stack
2009-05-15
Book
Masato Abe
This is the first book to combine classical vehicle dynamics with electronic control. The equation-based presentation of the theory behind vehicle dynamics enables readers to develop a thorough understanding of the key attribute to both a vehicle's driveability and its active safety. Supported by MATLAB tools, the key areas that affect vehicle dynamics are explored including tire mechanics, the steering system, vehicle roll, traction and braking, 4WS and vehicle dynamics, vehicle dynamics by vehicle and human control, and controllability. As a professional reference volume, this book is an essential addition to the resources available to anyone working in vehicle design and development. Written by a leading authority in the field (who himself has considerable practical experience), the book has a unique blend of theory and practice that will be of immense value in this applications based field.
2008-10-01
Book
This unique book gives chronicles the top Honda technical developments from April through September 2008. The 21 papers included give rare insight into Honda's worldwide R&D team, and cover automotive, motorcycle, power products, and other fundamental technologies. Full-color diagrams complement the text. Title highlights include: Mechanism of Occurrence of Ghost Noise in Helical Gears Resulting from Thread-type Tool Machining Development of Front Pillar for Visibility Enhancement Development of 5-speed Dual-clutch Transmission System for All-Terrain Vehicle Motorcycle Riding Simulator Enabling Experience of Honda's Advanced Brake Systems Running Gait Generation for Biped Robot This publication is available in both print and electronic format. The electronic format is also conveniently available for purchase in individual chapters.
2008-06-19
Book
Rao V. Dukkipati, Jian Pang, Mohamad S. Qatu, Gang Sheng, Zuo Shuguang
This book provides a detailed and well-rounded overview of the dynamics of road vehicle systems. Readers will come to understand how physical laws, human factor considerations, and design choices come together to affect a vehicle's ride, handling, braking, and acceleration. Following an introduction and general review of dynamics, topics include: analysis of dynamic systems; tire dynamics; ride dynamics; vehicle rollover analysis; handling dynamics; braking; acceleration; and total vehicle dynamics.
2004-09-03
Book
M. V. Blundell, Damian Harty
The multibody systems analysis is the established basis for the design and development of vehicle dynamic behavior. Comprehensively bridging the gaps between subjective vehicle assessment, classical vehicle dynamics and computer-based multibody approaches, this book is an essential reference for engineers involved with all aspects of vehicle dynamics--from concept design to system analysis and handling development. Combining theoretical aspects of vehicle dynamics and the practical applications of multibody systems techniques, the book draws on laboratory studies, test-track work, and finished vehicle applications.
2004-01-01
Book
Y. S. Wu, J. D. Yau, Y. B. Yang
The commercial operation of the bullet train in 1964 in Japan marked the beginning of a new era for high-speed railways. Because of the huge amount of kinetic energy carried at high speeds, a train may interact significantly with the bridge and even resonate with it under certain circumstances. This book is unique in that it is devoted entirely to the interaction between the supporting bridges and moving trains, the so-called vehicle-bridge interaction (VBI). It provides an up-to-date coverage of research conducted on various aspects of the VBI problems. Using the series of VBI elements derived, the authors study a number of frontier problems, including the impact response of bridges with elastic bearings, the dynamic response of curved beam to moving centrifugal forces, the stability and derailment of trains moving over bridges shaken by earthquakes, the impact response of two trains crossing on a bridge, the steady-state response of trains moving over elevated bridges, and so on.
2004-01-01
Book
Edward M. Lewandowski
This book presents a theoretical treatment, as well as a summary of practical methods of computation, of the forces and moments that act on marine craft. Its aim is to provide the tools necessary for the prediction or simulation of craft motions in calm water and in waves. In addition to developing the required equations, the author gives relations that permit at least approximate evaluation of the coefficients so that useful results can be obtained. The approach begins with the equations of motion for rigid bodies, relative to fixed- and moving-coordinate systems; then, the hydrodynamic forces are examined, starting with hydrostatics and progressing to the forces on a moving vehicle in calm water and (after a review of water-wave theory) in waves. Several detailed examples are presented, including calculations of hydrostatics, horizontal- and vertical-plane directional stability, and wave-induced motions.
2003-05-30
Book
Douglas L. Milliken, Edward M. Kasprzak, L. Daniel Metz, William F. Milliken
Written for the engineer as well as the race car enthusiast and students, this is a companion workbook to the original classic book, Race Car Vehicle Dynamics, and includes: Detailed worked solutions to all of the problems Problems for every chapter in Race Car Vehicle Dynamics, including many new problems The Race Car Vehicle Dynamics Program Suite (for Windows) with accompanying exercises Experiments to try with your own vehicle Educational appendix with additional references and course outlines Over 90 figures and graphs This workbook is widely used as a college textbook and has been an SAE International best seller since it's introduction in 1995. Buy the set and save! Race Car Vehicle Dynamics
2003-05-01
Book
William F. Milliken, Douglas L. Milliken, L. Daniel Metz, Edward M. Kasprzak
This set includes: Race Car Vehicle Dynamics, Race Car Vehicle Dynamics - Problems, Answers and Experiments Purchase both the book and the workbook as a set and save!
1994-12-01
Book
William F. Milliken, Douglas L. Milliken
Written for the engineer as well as the race car enthusiast, Race Car Vehicle Dynamics includes much information that is not available in any other vehicle dynamics text. Truly comprehensive in its coverage of the fundamental concepts of vehicle dynamics and their application in a racing environment, this book has become the definitive reference on this topic. Although the primary focus is on the race car, the engineering fundamentals detailed are also applicable to passenger car design and engineering. Authors Bill and Doug Milliken have developed many of the original vehicle dynamics theories and principles covered in this book, including the Moment Method, "g-g" Diagram, pair analysis, lap time simulation, and tire data normalization. The book also includes contributions from other experts in the field.
1993-03-01
Book
David Cebon
Written by David Cebon, Research Director of the Cambridge vehicle dynamics consortium, this award winning publication focuses on the interaction between heavy vehicles and roads. Organized into six sections, contents include: road response and damage; static loading considerations; dynamic tire forces; road damage due to dynamic tire forces; suspension assessment.
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