Biao Zhao – författare
860 kr
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This book systematically summarises the state-of-the-art research in the field of single-layer brazed cubic boron nitride (CBN) abrasive tools in terms of manufacturing technology, wear mechanisms and machining performance.
The authors present manufacturing methods and related principles, and explore the wear behaviour and mechanisms of single-layer brazed CBN abrasive tools, providing insights into tool manufacturing and tool life. They also clarify the scientific issues in the grinding performance of single-layer brazed CBN abrasive tools to improve machining efficiency and quality.
The book will contribute to the development of aerospace engineering and inspire academic researchers and industrial engineers in the field of ultra-high precision machining, especially grinding.
891 kr
Läs direkt efter köp
This book systematically summarises the state-of-the-art research in the field of single-layer brazed cubic boron nitride (CBN) abrasive tools in terms of manufacturing technology, wear mechanisms and machining performance.
The authors present manufacturing methods and related principles, and explore the wear behaviour and mechanisms of single-layer brazed CBN abrasive tools, providing insights into tool manufacturing and tool life. They also clarify the scientific issues in the grinding performance of single-layer brazed CBN abrasive tools to improve machining efficiency and quality.
The book will contribute to the development of aerospace engineering and inspire academic researchers and industrial engineers in the field of ultra-high precision machining, especially grinding.
1 833 kr
Skickas inom 10-15 vardagar
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Skickas inom 10-15 vardagar
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This book pioneers the exploration of hybrid-energy cutting for aerospace alloys, summarizing cutting-edge research on laser-assisted, ultrasonic vibration-assisted, electrical-assisted, and hybrid-energies-assisted cutting. It also covers enhanced heat transfer in cutting processes, proposing novel technologies for achieving geometric precision and surface integrity at low costs. The book delves into multi-energy fields interaction mechanisms, material removal, tool wear, and cutting performance of aerospace alloys, alongside green and high-efficient cooling technologies. Targeting researchers, scientists, engineers, and professionals in aerospace, materials science, mechanical engineering, and manufacturing, this advanced-level resource assumes a solid background in engineering and materials science. It provides detailed discussions on theoretical aspects and practical applications of hybrid-energy cutting techniques. This book is a valuable reference for advanced researchers and practitioners in aerospace alloys cutting. It provides a comprehensive exploration of hybrid-energy technologies, detailed insights into mechanisms and performance, and a focus on sustainable and cost-effective cutting solutions.