J. Paulo Davim & Mark J. Jackson 
Nano and Micromachining [PDF ebook] 

Apoio

This book provides the fundamentals and recent advances in nano and micromachining for modern manufacturing engineering. It begins by providing an outline of nanomachining with emphasis being given to molecular dynamics, cutting, and chip formation, before discussing various advances in field and machining processes, including advances in diamond cutting tools, conventional processes (microturning, microdrilling, micromilling, etc.), grinding and ultra-precision processes, and non-conventional machining processes (laser micromachining, EDM micromachining, etc.).

The coverage concludes with an evaluation of subsurface damages in nano and micromachining and a presentation of applications in industry. As such, not only is this book useful to those studying engineering or machining at both an undergraduate and postgraduate level, but it also serves as a useful reference guide for academics and engineers involved in these areas and related industries.

€139.99
Métodos de Pagamento

Tabela de Conteúdo

Preface ix

Chapter 1. Nanoscale Cutting 1
Rüdiger RENTSCH

1.1. Introduction 1

1.2. Basic elements of molecular dynamics modeling 3

1.2.1. Material representation and microstructure 3

1.2.2. Atomic interaction 4

1.2.3. System dynamics and numerical description 7

1.2.4. Boundary conditions 8

1.3. Design and requirements for state-of-the-art MD cutting process simulations 10

1.4. Capabilities of MD for nanoscale material removal process analysis 12

1.4.1. Analysis of microstructure and deformation 12

1.4.2. Obtaining cutting forces, stress and temperature 15

1.5. Advances and recent developments in material removal process simulation 18

1.5.1. Complete 3D surface machining simulation 18

1.5.2. Consideration of fluids in MD cutting simulation 20

1.6. Summary and outlook 23

1.7. References 24

Chapter 2. Ductile Mode Cutting of Brittle Materials: Mechanism, Chip Formation and Machined Surfaces 27
Xiaoping LI

2.1. Introduction 27

2.2. The mechanism of ductile mode cutting of brittle materials 29

2.2.1. Transition of chip formation mode from ductile to brittle 29

2.2.2. MD modeling and simulation of nanoscale ductile mode cutting of silicon 32

2.2.3. The mechanism of ductile mode chip formation in cutting of silicon 32

2.3. The chip formation in cutting of brittle materials 35

2.3.1. Material deformation and crack initiation in the chip formation zone 35

2.3.2. Stress conditions in the chip formation zone in relation to ductile-brittle mode of chip formation 36

2.4. Machined surfaces in relation to chip formation mode 38

2.5. References 40

Chapter 3. Diamond Tools in Micromachining 45
Waqar AHMED, Mark J. JACKSON and Michael D. WHITFIELD

3.1. Introduction 45

3.2. Diamond technology 45

3.2.1. Hot Filament CVD (HFCVD) 46

3.3. Preparation of substrate 48

3.3.1. Selection of substrate material 48

3.3.2. Pre-treatment of substrate 49

3.4. Modified HFCVD process 51

3.4.1. Modification of filament assembly 51

3.4.2. Process conditions 52

3.5. Nucleation and diamond growth 53

3.5.1. Nucleation 54

3.5.2. Bias-enhanced nucleation (BEN) 55

3.5.3. Influence of temperature 56

3.6. Deposition on complex substrates 58

3.6.1. Diamond deposition on metallic (molybdenum) wire 58

3.6.2. Deposition on WC-Co microtools 58

3.6.3. Diamond deposition on tungsten carbide (WC-Co) microtool 59

3.7. Diamond micromachining 62

3.7.1. Performance of diamond-coated microtool 66

3.8. Conclusions 67

3.9. References 67

Chapter 4. Conventional Processes: Microturning, Microdrilling and Micromilling 71
Wit GRZESIK

4.1. Introduction 71

4.1.1. Definitions and technological possibilities 71

4.1.2. Main applications of micromachining 72

4.2. Microturning 74

4.2.1. Characteristic features and applications 74

4.2.2. Microturning tools and tooling systems 75

4.2.3. Machine tools for microturning 77

4.3. Microdrilling 79

4.3.1. Characteristic features and applications 79

4.3.2. Microdrills and tooling systems 80

4.3.3. Machine tools for microdrilling 83

4.4. Micromilling 85

4.4.1. Characteristic features and applications 85

4.4.2. Micromills and tooling systems 87

4.4.3. Machine tools for micromilling 89

4.5. Product quality in micromachining 92

4.5.1. Quality challenges in micromachining 92

4.5.2. Burr formation in micromachining operations 92

4.5.3. Surface quality inspection of micromachining products 96

4.6. References 98

Chapter 5. Microgrinding and Ultra-precision Processes 101
Mark J. JACKSON and Michael D. WHITFIELD

5.1. Introduction 101

5.2. Micro and nanogrinding 104

5.2.1. Nanogrinding apparatus. 105

5.2.2. Nanogrinding procedures 105

5.3. Nanogrinding tools 106

5.3.1. Dissolution modeling 109

5.3.2. Preparation of nanogrinding wheels 110

5.3.3. Bonding systems 112

5.3.4. Vitrified bonding systems 113

5.4. Conclusions 121

5.5. References 122

Chapter 6. Non-Conventional Processes: Laser Micromachining 125
Grant M. ROBINSON and Mark J. JACKSON

6.1. Introduction 125

6.2. Fundamentals of lasers 126

6.2.1. Stimulated emission 126

6.2.2. Types of lasers 127

6.2.3. Laser optics 128

6.2.4. Beam quality 129

6.2.5. Laser-material interactions 131

6.3. Laser microfabrication 133

6.3.1. Nanosecond pulse microfabrication 133

6.3.2.Shielding gas 135

6.3.3. Nozzle designs for laser micromachining 136

6.3.4. Stages of surface melting 138

6.3.5. Effects of nanosecond pulsed microfabrication 138

6.3.6. Picosecond pulse microfabrication 143

6.3.7. Femtosecond pulse microfabrication 146

6.3.8. Effects of femtosecond laser machining 150

6.4. Laser nanofabrication 151

6.5. Conclusions 154

6.6. References 154

Chapter 7.Evaluation of Subsurface Damage in Nano and Micromachining 157
Jianmei ZHANG, Jiangang SUN and Zhijian PEI

7.1. Introduction 157

7.2. Destructive evaluation technologies 158

7.2.1. Cross-sectional microscopy 158

7.2.2. Preferential etching 159

7.2.3. Angle lapping/angle polishing 159

7.3. Non-destructive evaluation technologies 160

7.3.1. X-ray diffraction 160

7.3.2. Micro-Raman spectroscopy 164

7.3.3. Laser scattering 167

7.4. Acknowledgements 172

7.5. References 172

Chapter 8. Applications of Nano and Micromachining in Industry 175
Jiwang YAN

8.1. Introduction 175

8.2. Typical machining methods 176

8.2.1. Diamond turning 176

8.2.2. Shaper/planner machining 178

8.3. Applications in optical manufacturing 179

8.3.1. Aspheric lens 179

8.3.2. Fresnel lens 186

8.3.3. Microstructured components 193

8.4. Semiconductor and electronics related applications 200

8.4.1. Semiconductor wafer production 200

8.4.2. LSI substrate planarization 202

8.5. Summary 203

8.6. Acknowledgements 204

8.7. References 204

List of Authors 209

Index 211

Sobre o autor

J. Paul Davim works for KINNSYS, Brussels, Belgium.
Mark Jackson works for Jackson Ashcroft Associates, London, UK.

Compre este e-book e ganhe mais 1 GRÁTIS!
Língua Inglês ● Formato PDF ● ISBN 9780470610275 ● Tamanho do arquivo 4.7 MB ● Editor J. Paulo Davim & Mark J. Jackson ● Editora John Wiley & Sons ● País US ● Publicado 2010 ● Edição 1 ● Carregável 24 meses ● Moeda EUR ● ID 2320902 ● Proteção contra cópia sem

Mais ebooks do mesmo autor(es) / Editor

18.612 Ebooks nesta categoria