ISBN : 9780323996242
Author : Ram Gupta
Publisher : Elsevier
Year : 2023
Language : English
Type : Book
Description : Table of contents Cover image Title page Table of Contents Copyright List of contributors Part 1: Smart coatings and sensing applications 1. Ceramic material coatings: emerging future applications Abstract 1.1 Introduction 1.2 Ceramic coating in machining applications 1.3 Ceramic coating in aerospace applications 1.4 Ceramic coating in biomedical applications 1.5 Ceramic coating in the energy sector for structural applications 1.6 Ceramic coating in the semiconductor industry 1.7 Summary References 2. Self-healing ceramic coatings Abstract 2.1 Introduction 2.2 Self-healing ceramic coatings 2.3 Design and exploration of self-healing ceramic coatings 2.4 Self-healing mechanism 2.5 Conclusion and future perspective References 3. Self-cleaning ceramic coatings Abstract 3.1 Introduction 3.2 The photocatalytic self-cleaning mechanism 3.3 Wettability via surface roughness and porosity 3.4 The self-cleaning photocatalytic process 3.5 Self-cleaning coverings and their applications 3.6 Limitations and the future prospects 3.7 Summary 3.8 Conclusion References 4. Ceramics for sensing application Abstract 4.1 Introduction of ceramics 4.2 Ceramic sensors 4.3 Humidity sensors 4.4 Ceramic gas sensors 4.5 Porous ceramic sensors 4.6 Ceramic sensors in automobiles 4.7 Ceramic sensors in aviation 4.8 Ceramic sensors in medicine References Part 2: High temperature and turbine applications 5. High-entropy ceramic coatings Abstract 5.1 Introduction 5.2 Design and fabication methods of high-entropy ceramic coatings 5.3 History, composition, structure, and application of HEA ceramic coatings 5.4 Conclusions and outlook Acknowledgments References 6. Ceramic coatings in turbine applications Abstract 6.1 Introduction to thermal barrier coatings 6.2 Preparation technologies and microstructure of thermal barrier coatings 6.3 Ceramic top coat materials for thermal barrier coating applications 6.4 Degradation of TBCs by CMAS References 7. Advanced ceramics coating composites with high corrosion resistance in oil and gas application Abstract 7.1 Literature review 7.2 Methodology 7.3 Results, analysis, and discussion 7.4 Conclusion References 8. Advanced thermal barrier coatings for aerospace gas turbine engine applications Abstract 8.1 Introduction 8.2 Coating processes used for thermal barrier coating 8.3 Anatomy of thermal barrier coating 8.4 Required properties of ceramic top coat 8.5 Alternative ceramic top coat materials 8.6 Bilayered ceramic top coat 8.7 Failure modes of TBC 8.8 Summary 8.9 Future direction Acknowledgments References Part 3: Energy applications 9. Ceramic coating for electrostatic energy storage Abstract 9.1 Introduction 9.2 Theories 9.3 Ceramic coatings 9.4 Conclusions and prospects References 10. Plasma-sprayed ceramic coatings for solid oxide fuel cells Abstract 10.1 Introduction to solid oxide fuel cells 10.2 Plasma spray technique 10.3 Metal-supported solid oxide fuel cells 10.4 Literature on plasma-sprayed solid oxide fuel cell components 10.5 Conclusions References 11. CuInxGa1-xS2 absorber material for thin-film solar cells Abstract 11.1 Introduction 11.2 Working principle of a solar cell 11.3 Solar cell: absorber materials 11.4 Evolution of the CIGS absorber layer 11.5 Device structure and band alignment of CuInxGa1-x(S, Se)2 11.6 Crystallographic structure and phase diagram 11.7 Optical properties of CIGS 11.8 Processing of the CIGS absorber layer 11.9 Performance of a solar cell 11.10 Conclusion and outlook References Part 4: Health care applications 12. A study on the effect of AlTiN and TiCN coatings on the tribological properties of dental drills Abstract 12.1 Introduction 12.2 Materials and methods 12.3 Results and discussion 12.4 Conclusion Acknowledgment References 13. Bioceramic coatings for tissue engineering Abstract 13.1 Introduction 13.2 Classification of bioceramics 13.3 Coating methods 13.4 Applications of bioceramic coatings 13.5 Challenges and future perspectives References 14. Ceramic coatings for wound healing applications Abstract 14.1 Introduction 14.2 Biological significance of ceramics 14.3 Techniques for ceramic coatings 14.4 Wound healing applications 14.5 Conclusion and future perspective References Index