Wenfeng Ding, Biao Zhao, Ning Qian

Single-Layer Brazed Cubic Boron Nitride Abrasive Tools

• Broschiertes Buch

Produktbeschreibung

This book systematically summarises the state-of-the-art research in the field of single-layer brazed cubic boron nitride (CBN) grinding wheels in terms of manufacturing technology, wear mechanism and machining performance.

Produktdetails

• Verlag: CRC Press
• Seitenzahl: 340
• Erscheinungstermin: 30. Juli 2025
• Englisch
• Abmessung: 254mm x 178mm x 18mm
• Gewicht: 641g
• ISBN-13: 9781032678054
• ISBN-10: 1032678054
• Artikelnr.: 74436911

Autorenporträt

Wenfeng Ding is currently a professor of Mechanical Engineering and Doctoral Tutor at Nanjing University of Aeronautics and Astronautics, P.R. China. His research interests include grinding technology and equipment, superhard abrasive tools, machining process simulation and control technology. Biao Zhao is currently an associate professor of Mechanical Engineering at Nanjing University of Aeronautics and Astronautics, P.R. China. His research interests include high-efficiency and precision grinding technology, high-performance abrasive tools, grinding mechanisms and process optimization. Ning Qian is currently an associate professor at Nanjing University of Aeronautics and Astronautics. His research interests include high-performance grinding mechanisms and technologies. Haonan Li is currently a professor at the School of Aerospace, University of Nottingham, Ningbo, China. His research interests include grinding technology, tooling, and machine design and build. Jiuhua Xu is currently a professor at Nanjing University of Aeronautics and Astronautics, he is also the Changjiang scholar. His research interests include high-efficiency and precision machining technologies, intelligent manufacturing, etc.

Inhaltsangabe

1. Introduction 2. Brazing of Monocrystalline CBN Abrasive Grains Based on
Vacuum Furnace Heating 3. Brazing of Monocrystalline CBN Abrasive Grains
with Composite Fillers 4. Brazing of Polycrystalline CBN Abrasive Grains
Based on Vacuum Furnace Heating 5. Brazing of CBN Abrasive Grains Based on
High-Frequency Heating 6. Rhythmed Grain Distribution on the Wheel Surface
7. Wear Behaviour and Stresses Effects of Monocrystalline CBN Abrasive
Wheels 8. Wear Behaviour of Polycrystalline CBN Abrasive Wheels 9. Fractal
Analysis of CBN Grain Wear Morphology in Grinding 10. Stress Distribution
Effects on Grain Wear Evolution in Grinding 11. Grain Wear Effect on
Material Removal Behaviour During Grinding 12. Undefomred Chip Thickness
Nonuniformity When Considering Abrasive Wheel Wear 13. Grinding Behaviour
and Surface Integrity of Titanium Alloy 14. Grinding Behaviour and Surface
Integrity of Nickel-Based Superalloy 15. Grinding Behaviour and Surface
Integrity of Titanium Matrix Composites 16. Speed Effect on Materials
Removal During Grinding 17. Formation and Affacting Factors of Burrs During
Grinding

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1. Introduction 2. Brazing of Monocrystalline CBN Abrasive Grains Based on Vacuum Furnace Heating 3. Brazing of Monocrystalline CBN Abrasive Grains with Composite Fillers 4. Brazing of Polycrystalline CBN Abrasive Grains Based on Vacuum Furnace Heating 5. Brazing of CBN Abrasive Grains Based on High-Frequency Heating 6. Rhythmed Grain Distribution on the Wheel Surface 7. Wear Behaviour and Stresses Effects of Monocrystalline CBN Abrasive Wheels 8. Wear Behaviour of Polycrystalline CBN Abrasive Wheels 9. Fractal Analysis of CBN Grain Wear Morphology in Grinding 10. Stress Distribution Effects on Grain Wear Evolution in Grinding 11. Grain Wear Effect on Material Removal Behaviour During Grinding 12. Undefomred Chip Thickness Nonuniformity When Considering Abrasive Wheel Wear 13. Grinding Behaviour and Surface Integrity of Titanium Alloy 14. Grinding Behaviour and Surface Integrity of Nickel-Based Superalloy 15. Grinding Behaviour and Surface Integrity of Titanium Matrix Composites 16. Speed Effect on Materials Removal During Grinding 17. Formation and Affacting Factors of Burrs During Grinding