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Full Description
Corrosion is a great challenge in many industries, especially in the automotive, aerospace, and oil and gas industries, with conservative estimations accounting for losses of around 2.2 trillion US dollars per year in the United States alone. Providing a comprehensive overview of the history and development of nanomaterials, this book discusses various practices for protection against corrosion.
Key Features:
Provides a comprehensive and updated review of major innovations in the field of nanomaterials in industrial, corrosion, and environmental science and engineering
Encompasses design, characterization, mechanism, and application of nanomaterials from different strategies on the efficacy and major challenges associated with successful scaleup designing
Essential reference for present and future research in nanomaterials
Includes relevant aspects of organic and inorganic nanomaterials, hybrid nanomaterials, and nanocoatings in anticorrosion applications
Coalescing a wide range of research on nanomaterials and anticorrosion practices, this book is of particular appeal to students, industry professionals, and academics.
Contents
Contents
History and Development of Nanomaterials
General Classification, Designing Principles, Synthesis Methods, and Potential Applications of Nanomaterials
Corrosion Processes and Strategies for Protection
Emerging Characterization and Analytical Techniques for Corrosion Research
Anticorrosive Application of Graphene and its Derivatives
Zero-Dimensional Carbon Dots as Anticorrosive Nanomaterial
Fabrication and Applications of Fullerene-Based Anticorrosive Coatings
Carbon Nanotubes & Nanofiber: Functionalization and their Applications in Corrosion Protections
Metal-Organic Framework-Based Nanomaterials for Anticorrosive Applications
Supramolecular Polymer Nanocomposites for Corrosion Control
Recent Progress of MXene-based Nanomaterials for Corrosion Protection Nanomaterial
Nanostructure Metals and Alloys for Corrosion Prevention
Metal-Oxide Based Anticorrosion Nanocoating
Nanoceramics for Enhanced Corrosion protection
Stimuli-responsive Smart Nanocoatings for Autonomous Corrosion Monitoring and Control
Organic-inorganic Hybrid Nanocomposite Coatings for Corrosion Protection
Opportunities and Challenges for Molecular Simulation Machine Learning in Anticorrosive Nanomaterials
Summary and Future Perspectives of Corrosion Protection at the Nanoscale: Economics, Commercialization, and Enivronmental Considerations
