Introduction to Materials Science for Engineers, Global Edition
Thistitle is a Pearson Global Edition. The Editorial team at Pearson has worked closelywith educators around the world to include content which is especially relevantto students outside the United States. For a first course in MaterialsSciences and Engineering taught in the departments of materials...
| Otros Autores: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Harlow :
Pearson Education Limited
[2023]
|
| Edición: | Ninth edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009771835106719 |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright
- Dedication
- Contents
- Preface
- Chapter 1. Materials for Engineering
- 1.1 The Material World
- 1.2 Materials Science and Engineering
- 1.3 Six Materials That Changed Your World
- Steel Bridges-Introducing Metals
- Transparent Oxides-Introducing Ceramics
- Smartphones And Tablets-Introducing Glasses
- Nylon Parachutes-Introducing Polymers
- Kevlar®-Reinforced Tires-Introducing Composites
- Silicon Chips-Introducing Semiconductors
- 1.4 Processing and Selecting Materials
- 1.5 Looking at Materials by Powers of Ten
- Part I: The Fundamentals
- Chapter 2. Atomic Bonding
- 2.1 Atomic Structure
- 2.2 The Ionic Bond
- Coordination Number
- 2.3 The Covalent Bond
- 2.4 The Metallic Bond
- 2.5 The Secondary, or van der Waals, Bond
- 2.6 Materials-The Bonding Classification
- Chapter 3. Crystalline Structure-Perfection
- 3.1 Seven Systems and Fourteen Lattices
- 3.2 Metal Structures
- 3.3 Ceramic Structures
- 3.4 Polymeric Structures
- 3.5 Semiconductor Structures
- 3.6 Lattice Positions, Directions, and Planes
- 3.7 X-Ray Diffraction
- Chapter 4. Crystal Defects and Noncrystalline Structure-Imperfection
- 4.1 The Solid Solution-Chemical Imperfection
- 4.2 Point Defects-Zero-Dimensional Imperfections
- 4.3 Linear Defects, or Dislocations-One-DimensionaI Imperfections
- 4.4 Planar Defects-Two-Dimensional Imperfections
- 4.5 Noncrystalline Solids-Three-Dimensional Imperfections
- Chapter 5. Diffusion
- 5.1 Thermally Activated Processes
- 5.2 Thermal Production of Point Defects
- 5.3 Point Defects and Solid-State Diffusion
- 5.4 Steady-State Diffusion
- 5.5 Alternate Diffusion Paths
- Chapter 6. Mechanical Behavior
- 6.1 Stress Versus Strain
- Metals
- Ceramics And Glasses
- Polymers
- 6.2 Elastic Deformation
- 6.3 Plastic Deformation
- 6.4 Hardness.
- 6.5 Creep and Stress Relaxation
- 6.6 Viscoelastic Deformation
- Inorganic Glasses
- Organic Polymers
- Elastomers
- Chapter 7. Thermal Behavior
- 7.1 Heat Capacity
- 7.2 Thermal Expansion
- 7.3 Thermal Conductivity
- 7.4 Thermal Shock
- Chapter 8. Failure Analysis and Prevention
- 8.1 Impact Energy
- 8.2 Fracture Toughness
- 8.3 Fatigue
- 8.4 Nondestructive Testing
- 8.5 Failure Analysis and Prevention
- Chapter 9. Phase Diagrams-Equilibrium Microstructural Development
- 9.1 The Phase Rule
- 9.2 The Phase Diagram
- Complete Solid Solution
- Eutectic Diagram With No Solid Solution
- Eutectic Diagram With Limited Solid Solution
- Eutectoid Diagram
- Peritectic Diagram
- General Binary Diagrams
- 9.3 The Lever Rule
- 9.4 Microstructural Development During Slow Cooling
- Chapter 10. Kinetics-Heat Treatment
- 10.1 Time-The Third Dimension
- 10.2 The TTT Diagram
- Diffusional Transformations
- Diffusionless (Martensitic) Transformations
- Heat Treatment Of Steel
- 10.3 Hardenability
- 10.4 Precipitation Hardening
- 10.5 Annealing
- Cold Work
- Recovery
- Recrystallization
- Grain Growth
- 10.6 The Kinetics of Phase Transformations for Nonmetals
- Part II: Materials and Their Applications
- Chapter 11. Structural Materials-Metals, Ceramics, and Glasses
- 11.1 Metals
- Ferrous Alloys
- Nonferrous Alloys
- 11.2 Ceramics and Glasses
- Ceramics-Crystalline Materials
- Glasses-Noncrystalline Materials
- Glass-Ceramics
- 11.3 Processing the Structural Materials
- Processing Of Metals
- Processing Of Ceramics And Glasses
- Chapter 12. Structural Materials-Polymers and Composites
- 12.1 Polymers
- Polymerization
- Structural Features Of Polymers
- Thermoplastic Polymers
- Thermosetting Polymers
- Additives
- 12.2 Composites
- Fiber-Reinforced Composites
- Aggregate Composites
- Property Averaging.
- Mechanical Properties Of Composites
- 12.3 Processing the Structural Materials
- Processing Of Polymers
- Processing Of Composites
- Chapter 13. Electronic Materials
- 13.1 Charge Carriers and Conduction
- 13.2 Energy Levels and Energy Bands
- 13.3 Conductors
- Thermocouples
- Superconductors
- 13.4 Insulators
- Ferroelectrics
- Piezoelectrics
- 13.5 Semiconductors
- Intrinsic, Elemental Semiconductors
- Extrinsic, Elemental Semiconductors
- Compound Semiconductors
- Processing Of Semiconductors
- Semiconductor Devices
- 13.6 Composites
- 13.7 Electrical Classification of Materials
- Chapter 14. Optical and Magnetic Materials
- 14.1 Optical Materials
- Optical Properties
- Optical Systems And Devices
- 14.2 Magnetic Materials
- Ferromagnetism
- Ferrimagnetism
- Metallic Magnets
- Ceramic Magnets
- Chapter 15. Materials in Engineering Design
- 15.1 Material Properties-Engineering Design Parameters
- 15.2 Selection of Structural Materials-Case Studies
- Materials For Hip- And Knee-Joint Replacement
- Metal Substitution With Composites
- 15.3 Selection of Electronic, Optical, and Magnetic Materials-Case Studies
- Light-Emitting Diode
- Glass For Smart Phone And Tablet Touch Screens
- Amorphous Metal For Electric-Power Distribution
- 15.4 Materials and Our Environment
- Environmental Degradation Of Materials
- Environmental Aspects Of Design
- Recycling And Reuse
- Appendix 1. Physical and Chemical Data for the Elements
- Appendix 2. Atomic and Ionic Radii of the Elements
- Appendix 3. Constants and Conversion Factors and the Periodic Table of Elements
- Appendix 4. Properties of the Structural Materials
- Appendix 5. Properties of the Electronic, Optical, and Magnetic Materials
- Appendix 6. Glossary
- Answers to Practice Problems (PP) and Odd-Numbered Problems
- Index.
