Cargando…
Materials and Manufacturing : An Introduction to How they Work and Why it Matters /
A practical guide to materials and manufacturing concepts and applications Written in a straightforward, conversational style, this comprehensive textbook offers a hands-on introduction to materials science and manufacturing techniques. You will explore metallic and nonmetallic materials, their prop...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York, N.Y. :
McGraw-Hill Education,
[2019].
|
| Edición: | 1st edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright Page
- Contents
- Acknowledgments
- 1 Considerations in Materials and Manufacturing
- 1.1 Introduction
- 1.2 How It Works
- 1.3 Historical Perspective
- 1.4 Present Challenges
- 1.5 Future Considerations
- 1.6 Why It Matters
- 1.7 The How and Why of Considerations in Materials and Manufacturing
- 2 Concepts of Materials
- 2.1 How It Works
- 2.2 Atomic Structure
- 2.3 Atomic Bonding
- 2.4 Material Phases
- 2.5 Why It Matters
- 2.6 The How and Why of Concepts of Materials
- 3 Metallic Materials: Structure
- 3.1 How They Work
- 3.2 Structure of Metals
- 3.3 Why It Matters
- 3.4 The How and Why of Metallic Materials: Structure
- 4 Metallic Materials: Identification and Application
- 4.1 How They Work
- 4.2 Compositional Classes of Metals: Ferrous
- 4.3 Compositional Classes of Metals: Nonferrous
- 4.4 Property-Based Classifications of Metals
- 4.5 Why It Matters
- 4.6 The How and Why of Metallic Materials: Identification and Application
- 5 Nonmetallic Materials: Structure
- 5.1 How They Work
- 5.2 Ceramic Structure
- 5.3 Polymer Structure
- 5.4 Composite Structure
- 5.5 Why It Matters
- 5.6 The How and Why of Nonmetallic Materials: Structure
- 6 Nonmetallic Materials: Identification and Application
- 6.1 How They Work
- 6.2 Common Ceramics
- 6.3 Common Polymers
- 6.4 Common Composites
- 6.5 Why It Matters
- 6.6 The How and Why of Nonmetallic Materials: Identification and Application
- 7 Mechanical Concepts in Processing
- 7.1 How It Works
- 7.2 Forces in Materials and Manufacturing
- 7.3 Basic Mechanics
- 7.4 Mechanical Properties
- 7.5 Common Mechanical Properties of Engineering Materials
- 7.6 Methods of Testing Materials
- 7.7 Why It Matters
- 7.8 The How and Why of Mechanical Concepts in Processing
- 8 Thermal and Environmental Concepts in Processing
- 8.1 How It Works
- 8.2 The Basics of Temperature Effects
- 8.3 The Basics of Environmental Effects
- 8.4 Diffusion
- 8.5 Corrosion
- 8.6 Why It Matters
- 8.7 The How and Why of Thermal and Environmental Concepts in Processing
- 9 Conditioning Metals
- 9.1 How It Works
- 9.2 Mechanical Conditioning
- 9.3 Thermal Conditioning
- 9.4 Why It Matters
- 9.5 The How and Why of Conditioning Metals
- 10 Conditioning Nonmetallic Materials
- 10.1 How It Works
- 10.2 Conditioning Polymers
- 10.3 Conditioning Ceramics
- 10.4 Why It Matters
- 10.5 The How and Why of Conditioning Nonmetallic Materials
- 11 Casting and Molding
- 11.1 How It Works
- 11.2 Metal Casting
- 11.3 Polymer Molding
- 11.4 Ceramics
- 11.5 Why It Matters
- 11.6 The How and Why of Casting and Molding
- 12 Forming
- 12.1 How It Works
- 12.2 Forming Metals
- 12.3 Forming Polymers
- 12.4 Forming Ceramics
- 12.5 Why It Matters
- 12.6 The How and Why of Forming
- 13 Concepts in Material Removal
- 13.1 How It Works
- 13.2 The Cutting Process
- 13.3 Tool Types
- 13.4 Tool Materials
- 13.5 Cutting Parameters (Speeds and Feeds)
- 13.6 Why It Matters
- 13.7 The How and Why of Concepts in Material Removal
- 14 Sawing, Broaching, Filing, and Abrasive Machining
- 14.1 How They Work
- 14.2 Sawing Basics
- 14.3 Sawing Techniques
- 14.4 Broaching Basics
- 14.5 Filing Basics
- 14.6 Abrasive Machining Basics
- 14.7 Why It Matters
- 14.8 The How and Why of Sawing, Broaching, Filing, and Abrasive Machining
- 15 Holemaking
- 15.1 How It Works
- 15.2 Drilling
- 15.3 Reaming
- 15.4 Counterboring, Spot Facing, and Countersinking
- 15.5 Tapping
- 15.6 Tool Holders for Holemaking
- 15.7 Offset Boring
- 15.8 Why It Matters
- 15.9 The How and Why of Holemaking
- 16 Turning and Boring
- 16.1 How It Works
- 16.2 Types of Lathes
- 16.3 Lathe Tooling
- 16.4 Workholding
- 16.5 Turning Processes
- 16.6 Why It Matters
- 16.7 The How and Why of Turning and Boring
- 17 Milling
- 17.1 How It Works
- 17.2 Types of Mills
- 17.3 Mill Tooling
- 17.4 Workholding
- 17.5 Milling Processes
- 17.6 Why It Matters
- 17.7 The How and Why of Milling
- 18 Welding and Cohesive Assembly
- 18.1 How It Works
- 18.2 Metal Welding Processes
- 18.3 Cold Welding Metal Processes
- 18.4 Polymer Welding Processes
- 18.5 Ceramic Welding Processes
- 18.6 Why It Matters
- 18.7 The How and Why of Welding and Cohesive Assembly
- 19 Mechanical and Adhesive Assembly
- 19.1 How It Works
- 19.2 Mechanical Assembly Methods
- 19.3 Adhesive Assembly Methods
- 19.4 Why It Matters
- 19.5 The How and Why of Mechanical and Adhesive Assembly
- 20 Finishing
- 20.1 Introduction
- 20.2 Metals
- 20.3 Polymers
- 20.4 Ceramics
- 20.5 Why It Matters
- 20.6 The How and Why of Finishing
- 21 Additive Manufacturing
- 21.1 How It Works
- 21.2 Types of Additive Manufacturing
- 21.3 Special Considerations
- 21.4 Why It Matters
- 21.5 The How and Why of Additive Manufacturing
- 22 Advanced Manufacturing
- 22.1 How It Works
- 22.2 Nontraditional Manufacturing
- 22.3 Automated Manufacturing
- 22.4 Nanotechnology in Manufacturing
- 22.5 Sustainable Manufacturing
- 22.6 Why It Matters
- 22.7 The How and Why of Advanced Manufacturing
- A Temperature Scales and Conversions
- B Mechanical Properties of Common Materials
- C Common G-Code in Machine Programming
- D Speed and Feed Values for Machining Operations
- Glossary
- Index
- A
- B
- C
- D
- E
- F
- G
- H
- I
- J
- K
- L
- M
- N
- O
- P
- Q
- R
- S
- T
- U
- V
- W
- X
- Y
- Z.