Manufacturing Engineering and Technology, EBook, SI Units
Thistitle is a Pearson Global Edition. The Editorial team at Pearson has workedclosely with educators around the world to include content which is especiallyrelevant to students outside the United States. For courses in manufacturingprocess A comprehensive text on thescience, engineering, and tec...
| Autor principal: | |
|---|---|
| Otros Autores: | |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Harlow :
Pearson Education, Limited
2022.
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| Edición: | 8th ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009771833606719 |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright
- Dedication
- Contents
- Preface
- About the Authors
- General Introduction
- I.1 What Is Manufacturing?
- I.2 Product Design and Concurrent Engineering
- I.3 Design for Manufacture, Assembly, Disassembly, and Service
- I.4 Environmentally Conscious Design, Sustainable Manufacturing, and Product Life Cycle
- I.5 Selection of Materials
- I.6 Selection of Manufacturing Processes
- I.7 Computer-integrated Manufacturing
- I.8 Quality Assurance and Total Quality Management
- I.9 Lean Production and Agile Manufacturing
- I.10 Manufacturing Costs and Global Competition
- I.11 Trends in Manufacturing
- Part I: Fundamentals of Materials: Behavior and Manufacturing Properties
- Chapter 1. The Structure of Metals
- 1.1 Introduction
- 1.2 Types of Atomic Bonds
- 1.3 The Crystal Structure of Metals
- 1.4 Deformation and Strength of Single Crystals
- 1.5 Grains and Grain Boundaries
- 1.6 Plastic Deformation of Polycrystalline Metals
- 1.7 Recovery, Recrystallization, and Grain Growth
- 1.8 Cold, Warm, and Hot Working
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 2. Mechanical Behavior, Testing, and Manufacturing Properties of Materials
- 2.1 Introduction
- 2.2 Tension
- 2.3 Compression
- 2.4 Torsion
- 2.5 Bending (Flexure)
- 2.6 Hardness
- 2.7 Fatigue
- 2.8 Creep
- 2.9 Impact
- 2.10 Failure and Fracture of Materials
- 2.11 Residual Stresses
- 2.12 Work, Heat, and Temperature
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 3. Physical Properties of Materials
- 3.1 Introduction
- 3.2 Density
- 3.3 Melting Point
- 3.4 Specific Heat
- 3.5 Thermal Conductivity.
- 3.6 Thermal Expansion
- 3.7 Electrical, Magnetic, and Optical Properties
- 3.8 Corrosion Resistance
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 4. Metal Alloys: Their Structure and Strengthening by Heat Treatment
- 4.1 Introduction
- 4.2 Structure of Alloys
- 4.3 Phase Diagrams
- 4.4 The Iron-Carbon System
- 4.5 The Iron-Iron-carbide Phase Diagram and the Development of Microstructures in Steels
- 4.6 Cast Irons
- 4.7 Heat Treatment of Ferrous Alloys
- 4.8 Hardenability of Ferrous Alloys
- 4.9 Heat Treatment of Nonferrous Alloys and Stainless Steels
- 4.10 Case Hardening
- 4.11 Annealing
- 4.12 Heat Treating Furnaces and Equipment
- 4.13 Design Considerations for Heat Treating
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 5. Ferrous Metals and Alloys: Production, General Properties, and Applications
- 5.1 Introduction
- 5.2 Production of Iron and Steel
- 5.3 Casting of Ingots
- 5.4 Continuous Casting
- 5.5 Carbon and Alloy Steels
- 5.6 Stainless Steels
- 5.7 Tool and Die Steels
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 6. Nonferrous Metals and Alloys: Production, General Properties, and Applications
- 6.1 Introduction
- 6.2 Aluminum and Aluminum Alloys
- 6.3 Magnesium and Magnesium Alloys
- 6.4 Copper and Copper Alloys
- 6.5 Nickel and Nickel Alloys
- 6.6 Superalloys
- 6.7 Titanium and Titanium Alloys
- 6.8 Refractory Metals and Alloys
- 6.9 Beryllium
- 6.10 Zirconium
- 6.11 Lithium
- 6.12 Low-melting Alloys
- 6.13 Precious Metals
- 6.14 Shape-memory Alloys (Smart Materials).
- 6.15 Amorphous Alloys (Metallic Glasses)
- 6.16 Metal Foams and Metamaterials
- 6.17 Rare Earth Metals
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 7. Polymers: Structure, General Properties, and Applications
- 7.1 Introduction
- 7.2 The Structure of Polymers
- 7.3 Thermoplastics
- 7.4 Thermosetting Plastics
- 7.5 Additives in Plastics
- 7.6 General Properties and Applications of Thermoplastics
- 7.7 General Properties and Applications of Thermosetting Plastics
- 7.8 Biodegradable Plastics
- 7.9 Elastomers (Rubbers)
- 7.10 Gels
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 8. Ceramics, Glass, Graphite, Diamond, and Nanomaterials: Structure, General Properties, and Applications
- 8.1 Introduction
- 8.2 The Structure of Ceramics
- 8.3 General Properties and Applications of Ceramics
- 8.4 Glasses
- 8.5 Glass Ceramics
- 8.6 Graphite
- 8.7 Diamond
- 8.8 Nanomaterials
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 9. Composite Materials: Structure, General Properties, and Applications
- 9.1 Introduction
- 9.2 The Structure of Reinforced Plastics
- 9.3 Properties of Reinforced Plastics
- 9.4 Applications of Reinforced Plastics
- 9.5 Metal-matrix Composites
- 9.6 Ceramic-matrix Composites
- 9.7 Other Composites
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Part II: Metal-casting Processes and Equipment
- Chapter 10. Fundamentals of Metal Casting
- 10.1 Introduction
- 10.2 Solidification of Metals.
- 10.3 Fluid Flow
- 10.4 Fluidity of Molten Metal
- 10.5 Heat Transfer
- 10.6 Defects
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 11. Metal-casting Processes and Equipment
- 11.1 Introduction
- 11.2 Expendable-mold, Permanent-pattern Casting Processes
- 11.3 Expendable-mold, Expendable-pattern Casting Processes
- 11.4 Permanent-mold Casting Processes
- 11.5 Casting Techniques for Single-crystal Components
- 11.6 Rapid Solidification
- 11.7 Inspection of Castings
- 11.8 Melting Practice and Furnaces
- 11.9 Foundries and Foundry Automation
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 12. Metal Casting: Design, Materials, and Economics
- 12.1 Introduction
- 12.2 Design Considerations in Casting
- 12.3 Casting Alloys
- 12.4 Economics of Casting
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Part III: Forming and Shaping Processes and Equipment
- Chapter 13. Metal-rolling Processes and Equipment
- 13.1 Introduction
- 13.2 The Flat-rolling Process
- 13.3 Flat-rolling Practice
- 13.4 Rolling Mills
- 13.5 Various Rolling Processes and Mills
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 14. Metal-forging Processes and Equipment
- 14.1 Introduction
- 14.2 Open-die Forging
- 14.3 Impression-die and Closed-die Forging
- 14.4 Various Forging Operations
- 14.5 Forgeability of Metals
- Forging Defects
- 14.6 Die Design, Die Materials, and Lubrication
- 14.7 Die-manufacturing Methods and Die Failures.
- 14.8 Forging Machines
- 14.9 Economics of Forging
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 15. Metal Extrusion and Drawing Processes and Equipment
- 15.1 Introduction
- 15.2 The Extrusion Process
- 15.3 Hot Extrusion
- 15.4 Cold Extrusion
- 15.5 Extrusion Defects
- 15.6 Design Considerations
- 15.7 Extrusion Equipment
- 15.8 The Drawing Process
- 15.9 Drawing Practice
- 15.10 Drawing Defects and Residual Stresses
- 15.11 Drawing Equipment
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 16. Sheet-metal Forming Processes and Equipment
- 16.1 Introduction
- 16.2 Shearing
- 16.3 Sheet-metal Characteristics and Formability
- 16.4 Formability Tests for Sheet Metals
- 16.5 Bending Sheets, Plates, and Tubes
- 16.6 Miscellaneous Bending and Related Forming Operations
- 16.7 Deep Drawing
- 16.8 Rubber Forming and Hydroforming
- 16.9 Spinning
- 16.10 Superplastic Forming
- 16.11 Hot Stamping
- 16.12 Specialized Forming Processes
- 16.13 Manufacturing of Metal Honeycomb Structures
- 16.14 Design Considerations in Sheet-metal Forming
- 16.15 Equipment for Sheet-metal Forming
- 16.16 Economics of Sheet-forming Operations
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems
- Quantitative Problems
- Synthesis, Design, and Projects
- Chapter 17. Powder-metal Processes and Equipment
- 17.1 Introduction
- 17.2 Production of Metal Powders
- 17.3 Compaction of Metal Powders
- 17.4 Sintering
- 17.5 Secondary and Finishing Operations
- 17.6 Design Considerations
- 17.7 Economics of Powder Metallurgy
- Summary
- Key Terms
- Bibliography
- Review Questions
- Qualitative Problems.
- Quantitative Problems.
