Chapter 1: Electrochemical Aspects of Corrosion-Control Coatings
2.2 Low Temperature Intelligent Coatings
2.3 Encapsulation for Self-Healing Coatings
2.5 High Temperature Intelligent Coatings
2.7 Surface Coating Technologies
2.8 Influence of Major and Trace Elements
2.9 Concept of Intelligent Coatings
3.2 Designing Smart Coatings for Corrosion Protection
3.4 Nonmetallic-Inorganic Pretreatment Coatings
3.5 Organic Pretreatment Coatings
4.2 Chemical Vapor Deposition: MOCVD Variant Techniques
4.3 Organometallic Precursors: Economical Bulk Synthesis
4.4 Liquid Delivery Systems: Effect of Solvent
4.5 Organometallic Precursor Chemistry
4.6 Nucleation and Growth Mechanisms
Chapter 7: Innovative Luminescent Vitreous Enameled Coatings
7.2 The Most Important Properties of Vitreous Enamel
7.4 Luminescent Porcelain Enamel Coatings
7.5 Materials and Experimental Procedures
8.3 Types of Containers and Methods of Their Preparation
8.4 Release of Active Agents from Containers
8.5 Distribution of Containers in the Matrices of Novel Protective Coatings
8.6 Protective Performance of Container-Based Organic Self-Protecting Coatings
Chapter 9: Important Aspects Involved in Pilot Scale Production of Modern Paints and Coatings
9.4 General Process for Paints and Coatings
9.6 Major Equipment Used in Paints and Coating Industry
9.7 General Checkpoints for a Paint and Coating Pilot Plant
9.8 General Safety Precautions in Paint and Coating Pilot Plant
9.9 Typical Example of Pilot Scale Trial and Scale-Up of Acrylic Latex for Coating Applications
10.2 Development of Smart Chemistry
10.3 Characterization Methodology
Chapter 11: Conducting Polymers with Superhydrophobic Effects as Anticorrosion Coating
11.3 Conducting Polymer as an Anticorrosion Coating
11.4 Superhydrophobic Coating as an Anticorrosion Coating
11.5 Superhydrophobic Conducting Polymers as Anticorrosion Coatings
Chapter 12: Smart Protection of Polymer-Inhibitor Doped Systems
12.2 Rebar Concrete Application
12.3 Electrospun Smart Coating
12.4 Sol-Gel Coatings for Corrosion Control
Chapter 13: Properties and Applications of Thermochromic Vanadium Dioxide Smart Coatings
13.1 Introduction and Properties of VO2
Chapter 14: One-Part Self-Healing Anticorrosive Coatings: Design Strategy and Examples
14.2 Design Strategies of One-Part Self-Healing Anticorrosive Coatings
14.3 Examples of One-Part Self-Healing Anticorrosive Coatings
14.4 Concluding Remarks and Perspectives
Chapter 15: Intelligent Stannate-Based Coatings of Self-Healing Functionality for Magnesium Alloys
15.2 Types of Magnesium Alloys
15.3 Common Forms of Magnesium Corrosion
15.4 Mitigation of Magnesium Corrosion Using Stannate Conversion Coatings
15.5 Conclusion and Future Remarks
Chapter 16: Electroactive Polymer-Based Anticorrosive Coatings
16.3 Measures of Corrosion Prevention
Chapter 17: Corrosion Protective Coatings for Ti and Ti Alloys Used for Biomedical Implants
17.2 Surface Modification Methods
17.6 Plasma Electrolytic Oxidation
Chapter 18: Optical Sensors for Corrosion Monitoring
18.2 Optical Fiber Interrogation Principles
18.4 Conclusion and Future Trends
19.3 Testing and Characterizing the Performance of Chemically Intelligent Coatings
19.4 Characterizing Physically Intelligent Coatings
19.5 Testing the Performance of Physically Intelligent Coatings
19.6 Conclusions and Future Directions
Chapter 20: Monitoring Corrosion Using Vibrational Spectroscopic Techniques
20.4 Applications of In Situ Raman Spectroscopy in Corrosion Science