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This book explores the machinability mechanism of hard-to-machining materials under hybrid energy field, with a particular emphasis on the development and modification of green lubricants, the integration of multi-energy field assistance, and the intelligent machining equipment. It offers a comprehensive overview of cleaner precision manufacturing techniques, multi-energy assisted processing applications, and sustainable manufacturing practices, presenting innovative strategies for energy conservation, emission reduction, and the advancement of an eco-friendly society. By enhancing the sustainable use of bio-lubricants in intelligent machining and utilizing multi-energy field assistance to improve grinding and turning performance, this book provides a green, clean, and precise machining approach that prioritizes environmental protection, resource efficiency, and energy sustainability, while addressing the compatibility challenges between intelligent machining systems and clean energy applications.
List of contents
Chapter 1. Hybrid-energy enhanced technologies for sustainable machining.- Chapter 2. Biological Stability and circulating purification of Cutting Fluids.- Chapter 3. Preparation and modification of bio-lubricants.
About the author
Yanbin Zhang is a Professor, Doctoral Supervisor, Hong Kong Scholars, and Taishan Young Expert in Shandong Province. He has published 123 papers, including 60 ESI Highly Cited Papers. His research has been cited 11,714 times (WoS), with an H-index of 60. He is recognized among the Top 2% Scientists by Stanford/Elsevier (2020~2024), Highly Cited Researcher by Clarivate (2022).
Changhe Li is a Professor, Doctoral Supervisor, foreign academician of the Russian Academy of Engineering, a distinguished expert under the Taishan Scholars program in Shandong Province, Shandong Excellent Inventor. He is recognized among the Top 2% Scientists by Stanford/Elsevier (2019~2024), Highly Cited Researcher by Clarivate (2022).
Summary
This book explores the machinability mechanism of hard-to-machining materials under hybrid energy field, with a particular emphasis on the development and modification of green lubricants, the integration of multi-energy field assistance, and the intelligent machining equipment. It offers a comprehensive overview of cleaner precision manufacturing techniques, multi-energy assisted processing applications, and sustainable manufacturing practices, presenting innovative strategies for energy conservation, emission reduction, and the advancement of an eco-friendly society. By enhancing the sustainable use of bio-lubricants in intelligent machining and utilizing multi-energy field assistance to improve grinding and turning performance, this book provides a green, clean, and precise machining approach that prioritizes environmental protection, resource efficiency, and energy sustainability, while addressing the compatibility challenges between intelligent machining systems and clean energy applications.
