| Description |
1 online resource (xviii, 810 pages) |
| Contents |
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 |
| Summary |
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 properties and applications, and how products are made from them, including traditional, additive, and advanced manufacturing methods. Materials and Manufacturing: An Introduction to How They Work and Why It Matters starts off by explaining materials science fundamentals and progresses to outline manufacturing processes in the order in which they are often employed. Coverage includes:Metallic materials and processing nonmetallic materials and processing. Practical considerations in materials and manufacturing material structure, identification, and application compositional and property-based classification mechanical, thermal, and environmental concepts methods of testing materials. Sawing, broaching, filing, and abrasive machining milling, turning, boring, and hole making operations cohesive assembly through heat and chemical welding. Mechanical and adhesive assembly and finishing operations the benefits and roles of additive and advanced manufacturing |
| Bibliography |
Includes bibliographical references and index |
| Notes |
In English |
|
Print version |
| Subject |
Materials science -- Textbooks
|
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Manufacturing processes -- Textbooks
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Manufacturing processes
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Materials science
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| Genre/Form |
Textbooks
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| Form |
Electronic book
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| ISBN |
9781260122329 |
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1260122328 |
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