| Description |
1 online resource (340 p.) |
| Contents |
Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Part I: Fabrication Technology and Mechanism -- Chapter 1 Introduction -- 1.1 Single-Layer Brazed CBN Abrasive Weels -- 1.2 Book Structure -- References -- Chapter 2 Brazing of Monocrystalline CBN Abrasive Grains Based on Vacuum Furnace Heating -- 2.1 Introduction -- 2.2 Brazing Interface of CBN Grains and Filler Alloy Containing Titanium -- 2.3 Interfacial Formation Mechanism During Brazing CBN Grains -- 2.3.1 Characterization of Ti-Coated CBN Abrasive Grains |
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2.3.2 Effects of Heating Temperature on Interfacial Reaction -- 2.3.3 Compound Morphology of Interfacial Resultants -- 2.3.4 Formation Mechanisms of the Interfacial Microstructure -- References -- Chapter 3 Brazing of Monocrystalline CBN Abrasive Grains with Composite Fillers -- 3.1 Introduction -- 3.2 Effect of Tix Particles on Microstructure and Strength of Composite Filler -- 3.2.1 Experimental Details -- 3.2.2 Effects of Reinforcing Particles on the Spreading Behaviour of Composite Fillers -- 3.2.3 Effects of Reinforcing Particles on the Shear Strength of the Bonding Layer |
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3.2.4 Effects of Reinforcing Particles on Bonding Layer Microstructure -- 3.2.5 Distribution of Reinforcing Particles in the Bonding Layer -- 3.2.6 Reinforcing Mechanism of the TiX Particle Modified Composite Filler -- 3.2.7 Effect of Reinforcing Particles on the Microhardness of the Bonding Layer -- 3.3 Effect of Tix Particles on the Brazing Microstructure of CBN Abrasive Grains -- 3.3.1 Experimental Details -- 3.3.2 Overall Morphology of CBN Grains Brazed with Composite Fillers -- 3.3.3 Microstructure and Microchemistry Characteristics at the Grain/Filler Interface |
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3.3.4 Morphology of Brazing Chemical Resultants -- 3.3.5 Phase Analysis of Brazing Chemical Resultants -- 3.3.6 Fracture Morphology of the Brazed Joints -- 3.3.7 Influencing Mechanism of TiX Reinforcing Particles on Brazing Reaction -- 3.4 Strength Analysis of the CBN Abrasive Grains Brazed with a Composite Filler -- 3.4.1 Measurement and Calculation of Compressive Strength of Brazed CBN Grains -- 3.4.2 Effects of TiX Particle Types on the Compressive Strength of Brazed CBN Grains -- 3.4.3 Effects of TiX Particle Contents on the Compressive Strength of Brazed Grains -- References |
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Chapter 4 Brazing of Polycrystalline CBN Abrasive Grains Based on Vacuum Furnace Heating -- 4.1 Introduction -- 4.2 Brazed Polycrystalline CBN Abrasive Grains with AG-CU-TI Filler Alloy -- 4.2.1 Appearance and Joining Interface of Brazed Polycrystalline CBN Grains -- 4.2.2 Chemical Resultants around Brazed Polycrystalline CBN Grains -- 4.2.3 Brazing Mechanism of Polycrystalline CBN Grains -- 4.3 Brazed Polycrystalline CBN Abrasive Grains with CU-SN-TI Filler Alloy -- 4.3.1 Experimental Details -- 4.3.2 Interfacial Microstructure of Brazed Polycrystalline CBN Grains |
| Notes |
Description based upon print version of record |
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4.3.3 Resultant Morphology of Brazed Polycrystalline CBN Grains |
| Form |
Electronic book
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| Author |
Zhao, Biao
|
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Qian, Ning
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Li, Haonan
|
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Xu, Jiuhua
|
| ISBN |
9781003845126 |
|
1003845126 |
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