top of page

Group

Public·277 members
Ramazan Kornilov
Ramazan Kornilov

Chassis Handbook: How to Master the Art and Science of Vehicle Dynamics



Chassis Handbook: A Comprehensive Guide to Fundamentals, Driving Dynamics, Components, Mechatronics, and Perspectives




Introduction




If you are interested in learning more about how modern passenger cars work, you might want to take a closer look at their chassis. The chassis is the backbone of the vehicle, supporting the body, engine, transmission, and other components. It also determines how the vehicle behaves on the road, providing stability, comfort, safety, and performance.




Chassis Handbook - B. Heissing, M. Ersoy (2011) WW..pdf


Download: https://www.google.com/url?q=https%3A%2F%2Fgohhs.com%2F2ucT9L&sa=D&sntz=1&usg=AOvVaw2H2r-P1Fz8KEyVeo35t5Bn



Chassis technology is a complex and fascinating field of automotive engineering, involving a wide range of disciplines, such as mechanics, electronics, materials, aerodynamics, and acoustics. It also requires a balance between conflicting demands, such as efficiency, durability, cost, and environmental impact.


In this article, we will introduce you to the Chassis Handbook, a comprehensive reference book that covers all aspects of chassis technology in depth. This book is based on the second edition of the German book Fahrwerkhandbuch, edited by Bernd Heißing and Metin Ersoy. It is intended for chassis developers, automotive engineers, vehicle testers, students, professors, and anyone who wants to gain a solid understanding of chassis technology.


The book is divided into eight chapters, each covering a major topic in chassis technology. The chapters are:



  • Fundamentals



  • Driving Dynamics



  • Components



  • Axles and Suspensions



  • Ride Comfort and NVH



  • Chassis Development



  • Chassis Control Systems



  • The Future of Chassis Technology



In each chapter, you will find clear explanations of the basic principles, concepts, and methods of chassis technology, as well as detailed descriptions and illustrations of the various components, systems, and applications. You will also find supplementary material online, such as videos, animations, and software tools.


The book is written in an easy-to-read style, with a conversational tone and a human touch. It uses analogies and metaphors to make complex topics more accessible and engaging. It also uses rhetorical questions to stimulate your curiosity and interest. For example:


"How can we make a car drive faster without increasing its engine power? How can we make a car more comfortable without compromising its handling? How can we make a car safer without adding more weight? These are some of the questions that chassis engineers face every day."


The book also provides references to other sources of information, such as books, journals, websites, and standards. This way, you can easily find more information on topics that interest you or that you want to explore further.


In this article, we will give you a brief overview of each chapter of the book and highlight some of the key points and features. We hope that this article will spark your interest in chassis technology and encourage you to read the book in full.


Fundamentals




The first chapter of the book lays the foundation for understanding chassis technology. It covers the basic principles of vehicle design and dynamics, as well as the main chassis components and how they work together.


The chapter starts with an introduction to the history and evolution of chassis technology, from the early days of horse-drawn carriages to the present day of electric and autonomous vehicles. It also explains the main functions and objectives of chassis technology, such as:



  • Supporting the vehicle structure and load



  • Transmitting driving forces and braking torques



  • Absorbing road irregularities and vibrations



  • Controlling vehicle motion and stability



  • Enhancing driver comfort and safety



  • Reducing fuel consumption and emissions



The chapter then moves on to explain the basic principles of vehicle design and dynamics. It introduces concepts such as mass distribution, center of gravity, moments of inertia, wheelbase, track width, steering geometry 71b2f0854b


About

Welcome to the group! You can connect with other members, ge...

Members

Group Page: Groups_SingleGroup
bottom of page