Progress in Thermal Barrier Coatings Progress in Ceramic Technology 1st Edition by Acers ISBN 0470408383 9780470408384

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Product details:

ISBN 10: 0470408383
ISBN 13: 9780470408384
Author: Acers 

Progress in Thermal Barrier Coatings Progress in Ceramic Technology 1st Table of contents:

Part I: Introduction and Fundamentals

1. Introduction to Thermal Barrier Coatings

   • Definition and Importance of Thermal Barrier Coatings (TBCs)

   • Applications in Aerospace, Automotive, and Industrial Turbomachinery

   • Key Challenges in Thermal Barrier Coating Development

2. Fundamentals of Ceramic Materials

   • Properties of Ceramic Materials Used in TBCs

   • Thermal, Mechanical, and Chemical Properties

   • Crystal Structures and Phase Transformations

   • Overview of Zirconia and Other TBC Materials

3. Coating Formation and Deposition Techniques

   • Overview of Coating Deposition Methods (e.g., EB-PVD, APS, LPPS)

   • Influence of Deposition Techniques on Coating Microstructure and Performance

   • Surface Preparation and Coating Substrate Interaction

Part II: Materials and Processing of TBCs

4. Materials for Thermal Barrier Coatings

   • Zirconia-Based TBCs: Yttria-Stabilized Zirconia (YSZ)

   • High-Temperature Stability and Thermal Conductivity of Zirconia

   • Advances in TBC Materials: Gadolinium and Cerium-Doped Zirconia

   • Non-Zirconia-Based Coatings: Alumina, Mullite, and Other Ceramics

5. Coating Microstructure and Properties

   • Influence of Microstructure on Performance (e.g., porosity, cracks, delamination)

   • The Role of Interfaces: TBCs and Substrates

   • Mechanical Properties: Toughness, Hardness, and Adhesion

   • Thermal Conductivity and Thermal Expansion Mismatch

6. Deposition Techniques for TBCs

   • Electron Beam Physical Vapor Deposition (EB-PVD)

   • Atmospheric Plasma Spraying (APS) and High-Velocity Oxy-Fuel (HVOF)

   • Low-Pressure Plasma Spraying (LPPS) and Other Methods

   • Advanced Deposition Techniques: Solution Precursor Plasma Spraying (SPPS)

7. Post-Processing and Characterization

   • Heat Treatment and Post-Coating Processing

   • Microstructural Analysis: SEM, TEM, XRD

   • Techniques for Measuring Coating Adhesion and Cohesion

Part III: Performance and Durability of TBCs

8. Thermal Cyclic Fatigue and Thermal Shock Resistance

   • Understanding Thermal Fatigue in TBCs

   • Design Considerations for Improved Fatigue Resistance

   • Mechanisms of Thermal Shock and Crack Propagation

   • Advanced Approaches for Enhancing Durability

9. High-Temperature Oxidation and Corrosion Resistance

   • Mechanisms of Oxidation in TBCs

   • Strategies for Enhancing Corrosion Resistance

   • Role of Sealers and Top Coatings in Protecting TBCs

   • Applications in Gas Turbine and Aircraft Engines

10. Creep, Wear, and Erosion Resistance

• Mechanisms of Creep in TBCs at High Temperatures

• Wear Resistance and Erosion Behavior in Engine Components

• Coating Design for Improved Wear and Erosion Resistance

11. Environmental and Mechanical Performance

• Influence of Environmental Factors on TBC Performance

• The Role of Humidity, Water Vapor, and Sulfur in Coating Degradation

• Mechanical Performance Under Extreme Conditions (high pressure, vibration)

Part IV: Advanced Developments and Future Trends

12. Innovations in TBC Materials

• Advances in YSZ and YSZ-Alternatives

• High-Entropy Alloys and New Ceramic Materials

• Nanostructured TBCs for Enhanced Performance

• Role of Doping and Composite Materials in TBC Development

13. Design and Modeling of TBC Systems

• Theoretical Modeling of TBC Behavior Under Thermal Cycling

• Multi-Scale Modeling Approaches for Coating Design

• Predicting the Performance of TBCs in Service Environments

• Role of Computational Methods in the Design of TBC Systems

14. In Situ and Real-Time Monitoring of TBC Performance

• Techniques for In Situ Monitoring of Coating Integrity (e.g., acoustic emission, thermography)

• Real-Time Performance Prediction and Monitoring in Industrial Applications

• Advances in Non-Destructive Testing (NDT) for Coatings

15. The Future of Thermal Barrier Coatings

• Emerging Coating Materials and Processing Techniques

• Sustainability and Eco-Friendly Coating Technologies

• Integration of TBCs with Advanced Engine and Component Designs

• The Road Ahead for TBCs in Aerospace, Automotive, and Power Generation

Part V: Applications and Case Studies

16. Thermal Barrier Coatings in Aerospace and Aviation

• The Role of TBCs in Gas Turbines and Jet Engines

• Challenges and Solutions for Aerospace TBCs

• Case Studies in Engine Component Performance

17. TBCs in Power Generation and Industrial Turbomachinery

• Application of TBCs in Industrial Gas Turbines

• Advances in Combined-Cycle Power Generation

• Life Cycle Performance and Maintenance Strategies

18. Automotive and Marine Applications of TBCs

• TBCs for Automotive Engine Components

• Marine Turbine Engines and the Need for Advanced Coatings

• Real-World Performance of TBCs in High-Temperature Environments

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