Modern Ceramic Engineering: Properties, Processing, and Use in Design, Fourth Edition (Hardcover, 4)

· 제목 : Modern Ceramic Engineering: Properties, Processing, and Use in Design, Fourth Edition (Hardcover, 4) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 생화학
· ISBN : 9781498716918
· 쪽수 : 812쪽
· 출판일 : 2018-05-10

Part I: Ceramics as Engineering Materials

Chapter 1: What Is a Ceramic?

1.1 Definitions of Ceramics

1.2 Material Types Generally Considered in the Ceramics Family

1.3 So What Is a Ceramic?

Special Optional Assignment

References

Study Guide

Chapter 2: History of Ceramics

2.1 Ceramics in the Stone Age

2.2 The Rise of Traditional Ceramic Industries

2.3 From Traditional to Modern Ceramics

2.4 Summary

References

Study Guide

Chapter 3: Applications: Engineering with Ceramics

3.1 High-Temperature Applications

3.2 Wear and Corrosion Resistance Applications

3.3 Cutting and Grinding

3.4 Electrical Applications of Ceramics

3.5 Magnetic Ceramics

3.6 Optical Applications of Ceramics

3.7 Composites

3.8 Medical Applications of Ceramics

3.9 Energy Efficiency and Pollution Control

3.10 Military

3.11 Recreation

3.12 Modelling and Simulation…

3.13 Summary

References

Study Guide

Part II: Structure and Properties

Chapter 4: Atomic Bonding and Crystal Structure

4.1 Electronic Configuration of Atoms

4.2 Bonding

4.3 Polymorphic Forms and Transformations

4.4 Noncrystalline Structures

4.5 Molecular Structures

4.5.5 Cross-Linking and Branching

References

Problems

Study Guide

Chapter 5: Crystal Chemistry and Specific Crystal Structures

5.1 Crystal Structure Notations

5.2 Crystal Chemistry of Ceramics

5.3 Metallic and Ceramic Crystal Structures

References

Additional Recommended Reading

Problems

Study Guide

Chapter 6: Phase Equilibria and Phase Equilibrium Diagrams

6.1 Phase Equilibrium Diagrams

6.2 Phase Equilibrium Diagram Composition Calculations  

6.3 Isoplethal Crystallization Paths

6.4 Nonequilibrium Behavior

Problems

Study Guide

Chapter 7: Physical and Thermal Behavior

7.1 Physical Properties

7.2 Thermal Properties

7.3 Thermal Expansion

References

Problems

Study Guide

Chapter 8: Mechanical Behavior and Measurement

8.1 Elasticity

8.2 Strength

8.3 Fracture Toughness

8.4 Ductile Versus Brittle Behavior

References

Additional Recommended Reading

Problems

Study Guide

Chapter 9: Time, Temperature, and Environmental Effects on Properties

9.1 Creep

9.2 Static Fatigue

9.3 Chemicl Effects

9.4 Mechanically Induced Effects

9.5 Thermal Shock

References

Problems

Study Guide

Chapter 10: Electrical Behavior

10.1 Fundamentals and Definitions

10.2 Electronic Conductivity

10.3 Ionic Conductivity

10.4 Conductive Polymers

10.5 Electrical Insulators

10.6 Semiconductors

10.7 Superconductivity

References

Additional Recommended Reading

Problems

Study Guide

Chapter 11: Dielectric, Magnetic, and Optical Behavior

11.1 Dielectric Properties 

11.2 Magnetic Behavior

11.3 Optical Behavior

References

Problems

Study Guide

Part III: Processing of Ceramics

Chapter 12: Introduction to Ceramic Fabrication Approaches and to Powder Processing

12.1 General Ceramic Processing Approaches

12.1.1 Conventional Ceramic Processing By Compaction of Powders

12.1.2 Refractories Processing

12.1.3 Melting and Fusion Ceramics Processing

12.1.4 Romm or Low Temperature Processing

12.1.5 Other Ceramic Processing Options

12.2 Powder Processing

12.3 Powder Preparation and Sizing

12.4 Preconsolidation

12.5 Batch Determination

References

Additional Recommended Reading

Problems

Study Guide

Chapter 13: Shape-Forming Processes

13.1 Pressing

13.2 Casting

13.3 Plastic Forming

13.4 Green Machining

References

Additional Recommended Reading

Problems

Study Guide

Chapter 14: Densification

14.1 Theory of Sintering

14.2 Modified Densification Processes

References

Additional Recommended Reading

Problems

Study Guide

Chapter 15: Final Machining

15.1 Mechanisms of Material Removal

15.2 Effects on Strength

15.3 Additional Sources of Information

References

Additional Recommended Reading

Problems

Study Guide

Chapter 16: Quality Assurance

16.1 In-Process QA

16.2 Specification and Certification

16.3 Proof Testing

16.4 Nondestructive Inspection

16.5 Quality Problem Solving and Improvement

16.6 Future Developments in Quality Assurance

References

Additional Recommended Reading

Problems

Study Guide

Part IV: Design with Ceramics

Chapter 17: Design Considerations

17.1 Requirements of the Application

17.2 Property Limitations

17.3 Fabrication Limitations

17.4 Cost Considerations

17.5 Reliability Requirements

17.6 Summary

References

Study Guide

Chapter 18: Design Approaches

18.1 Empirical Design

18.2 Deterministic Design

18.3 Probabilistic Design

18.4 Linear Elastic Fracture Mechanics Approach

18.5 Combined Approaches

18.6 Computer Assisted Design (CAD)

References

Additional Recommended Reading

Problems

Study Guide

Chapter 19: Failure Analysis

19.1 Fractography

19.2 Summary

References

Additional Recommended Reading

Study Guide

Chapter 20: Toughening of Ceramics

20.1 Toughening Mechanisms

20.2 Examples of Toughened Ceramics

20.3 Summary

References

Problems

Study Guide

Part V: Applying Ceramics to Real World Challenges

Chapter 21: Solving Past Challenges?Case Studies

21.1 Evolution of the Integrated Circuit

21.2 Evolution of the Flash Memory and the Digital Camera

21.3 Challenges of the Digital Watch

21.4 Invention and Evolution of the Catalytic Converter

21.5 Bioglass amd Bioceramics

21.6 Refractories Evolution

21.7 Ceramics in the Nuclear Industry

21.8 Silicon Nitride: Seeking Uses for a New Material

References.

Chapter 22: Where Next for Ceramics? Future Trends and Challenges

22.1 Nanotechnology and Nanoprocessing

22.2 Ceramics in Environmental Clean-up

22.3 Raw Material Challenges

22.4 Modelling

22.5 Advances in Processing

22.6 Extreme Environment Challenges

References

Appendix A

Glossary

Appendix B

Effective Ionic Radii for Cations and Anions

Appendix C

The Periodic Table of the Elements

　

Index