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This book provides an in-depth understanding of tyre dynamics. In the first three chapters, new concepts are introduced in respect to the classic theory. Analytical results are derived step-by-step to guide the reader through the governing equations of the model. Transient phenomena are explained in a relatively simple way according to the brush theory. The analysis is extended to cover the case of large camber angles, which is often disregarded. The principal mechanisms behind the transient generation of tyre forces and moment are discussed in general terms, and exact solutions to the rolling…mehr

Produktbeschreibung
This book provides an in-depth understanding of tyre dynamics. In the first three chapters, new concepts are introduced in respect to the classic theory. Analytical results are derived step-by-step to guide the reader through the governing equations of the model. Transient phenomena are explained in a relatively simple way according to the brush theory. The analysis is extended to cover the case of large camber angles, which is often disregarded. The principal mechanisms behind the transient generation of tyre forces and moment are discussed in general terms, and exact solutions to the rolling contact problem are given for simple contact geometries.
The last part of the book is dedicated to the approximated theories of transient generation of tyre forces and moment. Two different models, suitable for use in vehicle dynamics applications, are presented and compared.
Autorenporträt
Luigi Romano was born in Naples, Italy in 1994. He studied Mechanical Engineering at University of Naples Federico II, where he won the best student prize in 2016. Currently, he is a PhD candidate in Vehicle Dynamics at Chalmers University of Technology. His research interests include automotive technologies, intelligent transportation systems and optimal control of ground vehicles. He has authored and co-authored several papers on tyre-road contact mechanics and smart tyre concepts.