The book will be essential reading for engineers and designers of engines, as well as lecturers and graduate students in the fields of combustion engineering, machine design and materials science looking for a concise, expert analysis of automotive materials. It also includes supplementary notes that support the core text. The intention here is to describe the metallurgy, surface modification, wear resistance, and chemical composition of these materials. It is a subtle balance between material properties, essential design and high performance characteristics. The materials used in automotive engines are required to fulfill a multitude of functions.
The book considers the engine in terms of each specific part: the cylinder, piston, camshaft, valves, crankshaft, connecting rod and catalytic converter. It focuses on reciprocating engines, both four and two-stroke, with particular emphasis on their characteristics and the types of materials used in their construction. The science and technology of materials in automotive engines (ISBN-13: 978-1-85573-742-6 ISBN-10: 1-85573-742-6) This new book provides an introductory text on the science and technology of materials used in automotive engines. The book will be useful for advanced analysis of the subject and provide examples and practical solutions for welding engineers. It will outline the approach for computational analysis that engineers with sufficient background can follow and apply. It develops sufficient theoretical treatments on heat transfer, solid mechanics and materials behaviour that are essential for understanding and determining welding residual stress and distortion. Through the collaboration of experts, this book provides a comprehensive treatment of the subject. More importantly the development and application of computational welding mechanics have been phenomenal. Welding residual stress and distortion (ISBN-13: 978-1-85573-771-6 ISBN-10: 1-85573-771-X) Measurement techniques for characterisation of residual stress and distortion have improved significantly.
This comprehensive new book discusses the changes in advanced welding technologies preparing the reader for the modern industry. Today's engineers and technologists have to support complex systems and apply sophisticated welding technologies. Automation, computers, process control, sophisticated scientific instruments and advanced processing methods are all common in today's modern industry. Recent developments in high-technology areas have significantly transformed the welding industry.
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