Intelligent Coatings for Corrosion Control

Intelligent Coatings for Corrosion Control

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Intelligent Coatings for Corrosion Control covers the most current and comprehensive information on the emerging field of intelligent coatings. The book begins with a fundamental discussion of corrosion and corrosion protection through coatings, setting the stage for deeper discussion of the various types of smart coatings currently in use and in development, outlining their methods of synthesis and characterization, and their applications in a variety of corrosion settings. Further chapters provide insight into the ongoing research, current trends, and technical challenges in this rapidly progressing field.
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Product details

  • Paperback | 746 pages
  • 152 x 229mm
  • Butterworth-Heinemann Inc
  • Woburn, United States
  • English
  • 0128100966
  • 9780128100967

Table of contents

Corrosion and corrosion control through coatings
Intelligent coatings: from cradle to cradle
The importance of corrosion and the necessity of applying intelligent coatings for its control
Engineering aspects involved in the pilot scale production of modern paint or coatings
Electroactive-based polymer anticorrosive coatings
Innovative luminescent vitreous enameled coatings
Nanostructured conducting polymer and superhydrophobic anti-corrosion coatings
Smart inorganic and organic pretreatment coatings for the inhibition of corrosion on metal alloys
Anticorrosion coatings with self-recovering ability based on damage-triggered micro- and nanocontainers
Smart protection from inhibitor doped coatings
Vanadium oxides smart coatings and their applications
Intelligent green conversion coating
Intelligent stannate based coatings of self-healing functionality for magnesium alloys
Zinc-rich coatings in the way of novel hybrid paints incorporated with nano-size inhibitor and electrical conducting particles
One-part microcapsule based self-healing coatings for corrosion protection: design strategy and examples
Synthesis and characterization of self-healing coatings for the corrosion protection of steel
Economical synthesis of organometallic compounds/precursors and low temperature coating over metallic/alloys/ graphite systems
Corrosion protective coatings for ti and ti alloys substrates
Characterization of high performance protective coatings for use on culturally significant works
Laser-induced plasma spectroscopy for the analysis and characterization of coatings
Corrosion monitoring through florescence phenomenon
Optical sensors for corrosion monitoring
Monitoring corrosion with spectroscopic techniques
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About Atul Tiwari

Dr. Tiwari specializes in the development of novel materials, such as coatings for corrosion protection, bio-inspired biocompatible materials, hybrid materials for fiber reinforced composites, graphene films and coatings. He has invented seven international patent-pending technologies that have been transferred to industries, including a unique non-carcinogenic corrosion protection coating SiloXelTM that is targeting the $300 million non-chromate conversion coating market. He has been actively engaged in various fields of polymer science, engineering, and technology and has published several scientific peer reviewed journal papers, book chapters and books related to material science. He is an active reviewer of several leading international journals and acts as associate editor of the journal Advances in Chemical Engineering and Science. Dr. Hihara is Professor of Mechanical Engineering at the University of Hawaii at Manoa. He has a Ph.D. in Metallurgy from M.I.T. Dr. Hihara's research interests include corrosion behavior of advanced materials in Hawaii's micro-climates, corrosion behavior of SiC/Al, boron carbide/Al, alumina/Al, and Si/Al metal-matrix composites, corrosion of microelectromechanical systems, and materials compatibility of metal alloys coupled to polymer-matrix and ceramic-matrix composites. He has published extensively in the areas of corrosion science and coatings. Dr. Rawlins is an Associate Professor in the School of Polymers and High Performance Materials at the University of Southern Mississippi. From 2000 to 2004 he was Senior Research Chemist/Technical Marketing Manager of Powder Coating Raw Materials at Bayer Corporation. He owns more than ten patents, including several in the area of coatings. His research interests include polymer design for thermosetting systems; polymer-coated surfaces; polymer interpenetrating networks; compatible and incompatible blending in crosslinked polymer systems; forensic analysis of polymers, coatings, adhesives, fibers, films; Structure property-relationships with crosslinked polymer systems; raw material development from natural and renewable resources; chemical and biological agent permeability with crosslinked systems, and intelligent and responsive polymers. Dr. Rawlins has a Ph.D. in Polymer Science and Engineering.
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