Handbook of Smart Coatings for Materials Protection

Informationen zum Autor Abdel Salam Hamdy Makhlouf is Professor in the College of Engineering and Computer Science at the University of Texas-Pan American, Edinburg. Klappentext A smart coating is defined as one that changes its properties in response to an environmental stimulus. The Handbook of Smart Coatings for Materials Protection reviews the new generation of smart coatings for corrosion and other types of material protection. Part one explores the fundamentals of smart coatings for materials protection including types, materials, design, and processing. Chapters review corrosion processes and strategies for prevention; smart coatings for corrosion protection; techniques for synthesizing and applying smart coatings; multi-functional, self-healing coatings; and current and future trends of protective coatings for automotive, aerospace, and military applications. Chapters in part two focus on smart coatings with self-healing properties for corrosion protection, including self-healing anticorrosion coatings for structural and petrochemical engineering applications; smart self-healing coatings for corrosion protection of aluminum alloys, magnesium alloys and steel; smart nanocoatings for corrosion detection and control; and recent advances in polyaniline-based organic coatings for corrosion protection. Chapters in part three move on to highlight other types of smart coatings, including smart self-cleaning coatings for corrosion protection; smart polymer nanocomposite water- and oil-repellent coatings for aluminum; UV-curable organic polymer coatings for corrosion protection of steel; smart epoxy coatings for early detection of corrosion in steel and aluminum; and structural ceramics with self-healing properties. The Handbook of Smart Coatings for Materials Protection is a valuable reference for those concerned with preventing corrosion, particularly of metals, professionals working within the surface coating industries, as well as all those with an academic research interest in the field. Zusammenfassung A smart coating is defined as one which changes its properties in response to an environmental stimulus. This important book reviews the new generation of smart coatings for corrosion and other types of material protection. Inhaltsverzeichnis Contributor contact details Woodhead Publishing Series in Metals and Surface Engineering Preface Part I: Fundamentals of smart coatings for materials protection 1. Corrosion processes and strategies for prevention: an introduction Abstract: 1.1 Introduction 1.2 Corrosion of metals, alloys and composites: an overview 1.3 Wet corrosive environments 1.4 Strategies for corrosion inhibition: design and materials 1.5 Strategies for corrosion inhibition: protective coatings 1.6 Conclusion 1.7 Acknowledgement 1.8 References 2. Smart coatings for corrosion protection: an overview Abstract: 2.1 Introduction 2.2 Triggering mechanisms 2.3 Self-healing mechanisms 2.4 Sensing systems 2.5 Future trends 2.6 Conclusion 2.7 Acknowledgement 2.8 References 3. Techniques for synthesizing and applying smart coatings for material protection Abstract: 3.1 Introduction 3.2 Environmentally friendly smart self-healing coatings 3.3 Most common methods and technologies for synthesizing smart coatings 3.4 Conclusion 3.5 References 4. Multi-functional, self-healing coatings for corrosion protection: materials, design and processing Abstract: 4.1 Introduction 4.2 Key issues in developing multi-functional coatings 4.3 Materials for encapsulation of self-healing and anti-corrosion agents 4.4 Computer-based simulation 4.5 Material testing and function screening 4.6 Processing...

Klappentext

A smart coating is defined as one that changes its properties in response to an environmental stimulus. The Handbook of Smart Coatings for Materials Protection reviews the new generation of smart coatings for corrosion and other types of material protection.

Part one explores the fundamentals of smart coatings for materials protection including types, materials, design, and processing. Chapters review corrosion processes and strategies for prevention; smart coatings for corrosion protection; techniques for synthesizing and applying smart coatings; multi-functional, self-healing coatings; and current and future trends of protective coatings for automotive, aerospace, and military applications. Chapters in part two focus on smart coatings with self-healing properties for corrosion protection, including self-healing anticorrosion coatings for structural and petrochemical engineering applications; smart self-healing coatings for corrosion protection of aluminum alloys, magnesium alloys and steel; smart nanocoatings for corrosion detection and control; and recent advances in polyaniline-based organic coatings for corrosion protection. Chapters in part three move on to highlight other types of smart coatings, including smart self-cleaning coatings for corrosion protection; smart polymer nanocomposite water- and oil-repellent coatings for aluminum; UV-curable organic polymer coatings for corrosion protection of steel; smart epoxy coatings for early detection of corrosion in steel and aluminum; and structural ceramics with self-healing properties.

The Handbook of Smart Coatings for Materials Protection is a valuable reference for those concerned with preventing corrosion, particularly of metals, professionals working within the surface coating industries, as well as all those with an academic research interest in the field.

Zusammenfassung
A smart coating is defined as one which changes its properties in response to an environmental stimulus. This important book reviews the new generation of smart coatings for corrosion and other types of material protection.

Inhalt

Contributor contact details

Woodhead Publishing Series in Metals and Surface Engineering

Preface

Part I: Fundamentals of smart coatings for materials protection

1. Corrosion processes and strategies for prevention: an introduction

   Abstract:

   1.1 Introduction

   1.2 Corrosion of metals, alloys and composites: an overview

   1.3 Wet corrosive environments

   1.4 Strategies for corrosion inhibition: design and materials

   1.5 Strategies for corrosion inhibition: protective coatings

   1.6 Conclusion

   1.7 Acknowledgement

   1.8 References

2. Smart coatings for corrosion protection: an overview

   Abstract:

   2.1 Introduction

   2.2 Triggering mechanisms

   2.3 Self-healing mechanisms

   2.4 Sensing systems

   2.5 Future trends

   2.6 Conclusion

   2.7 Acknowledgement

   2.8 References

3. Techniques for synthesizing and applying smart coatings for material protection

   Abstract:

   3.1 Introduction

   3.2 Environmentally friendly smart self-healing coatings

   3.3 Most common methods and technologies for synthesizing smart coatings

   3.4 Conclusion

   3.5 References

4. Multi-functional, self-healing coatings for corrosion protection: materials, design and processing

   Abstract:

   4.1 Introduction

   4.2 Key issues in developing multi-functional coatings

   4.3 Materials for encapsulation of self-healing and anti-corrosion agents

   4.4 Computer-based simulation

   4.5 Material testing and function screening

   4.6 Processing

   4.7 Guiding principles for designing multi-functional coatings

   4.8 Case studies and examples

   4.9 Conclusion and future trends

   4.10 Acknowledgements

   4.11 References

5. Strategies for developing multi-functional, self-healing coatings for corrosion prevention and other functions

   Abstract:

   5.1 Introduction

   5.2 Approaches to self-healing of functional coatings

   5.3 Corrosion and other functions of coatings recovered or enhanced by self-healing

   5.4 Technologies for creating functional self-healing coatings

   5.5 Conclusion

   5.6 Future trends

   5.7 Sources of further information and advice

   5.8 References

6. Protective coatings for automotive, aerospace and military applications: current prospects and future trends

   Abstract:…