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دانلود کتاب Organic coatings : science and technology

دانلود کتاب پوشش های آلی: علم و فناوری

Organic coatings : science and technology

مشخصات کتاب

Organic coatings : science and technology

ویرایش: Fourth edition 
نویسندگان: , ,   
سری:  
ISBN (شابک) : 9781119337157, 9781119337201 
ناشر: John Wiley & Sons 
سال نشر: 2017 
تعداد صفحات: 510 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 7 مگابایت 

قیمت کتاب (تومان) : 42,000



کلمات کلیدی مربوط به کتاب پوشش های آلی: علم و فناوری: پوشش های پلاستیکی، فناوری و مهندسی -- شیمی و بیوشیمی.



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توجه داشته باشید کتاب پوشش های آلی: علم و فناوری نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.


توضیحاتی در مورد کتاب پوشش های آلی: علم و فناوری

راهنمای قطعی پوشش‌های ارگانیک، به‌طور کامل بازبینی و به‌روزرسانی شده است - اکنون با پوشش طیفی از موضوعاتی که در نسخه‌های قبلی پوشش داده نشده‌اند، پوشش‌های آلی: علم و فناوری، نسخه چهارم پوشش بی‌نظیری از فناوری پوشش‌های آلی و کاربردهای فراوان آن ارائه می‌کند. نوشته شده توسط سه کارشناس برجسته صنعت (از جمله یک دانشمند جدید و شناخته شده بین المللی در زمینه پوشش) یک بررسی سیستماتیک از این زمینه ارائه می کند، مطالب مربوط به نسخه قبلی را اصلاح و به روز می کند، و ویژگی های درمان جدید یا اضافی از موضوعاتی مانند ابرآب گریز، یخ پوشش های فوبیک، ضد میکروبی و خود ترمیم شونده؛ پایداری، نقاشی های هنرمند، و پرایمرهای معماری بیرونی. آن را برای دانشمندان و مهندسان این رشته و همچنین برای دانشجویان دوره های پوشش دهی مرتبط تر و مفیدتر می کند. این کتاب شامل پوشش به روز تحولات اخیر در این زمینه با بحث های مفصل درباره اصول زیربنای فناوری و کاربردهای آن در توسعه، تولید و استفاده از پوشش های ارگانیک است. تمام فصل‌های این نسخه جدید برای اطمینان از ثبات و امکان ارجاع متقابل گسترده به‌روزرسانی شده‌اند. مواد ارائه شده همچنین در زمینه های مربوط به جوهر و چسب چاپ و همچنین در زمینه های صنعت پلاستیک قابل استفاده است. این نسخه جدید به طور کامل فصل‌های قدیمی را برای اطمینان از سازگاری و امکان ارجاع متقابل گسترده بازبینی می‌کند. فناوری تجربی پوشش‌ها با علم زیربنایی در سراسر جهان مرتبط است. دانشمند پوشش های شناخته شده بین المللی دیدگاه تازه ای را به محتوا ارائه می دهد. ارائه یک نمای کلی برای مبتدیان در زمینه پوشش های ارگانیک و یک مرجع مفید برای متخصصان باتجربه، پوشش های آلی: علم و فناوری، ویرایش چهارم، اطلاعات و پاسخ های مورد نیاز را در صورت نیاز به شما می دهد.


توضیحاتی درمورد کتاب به خارجی

The definitive guide to organic coatings, thoroughly revised and updated—now with coverage of a range of topics not covered in previous editions Organic Coatings: Science and Technology, Fourth Edition offers unparalleled coverageof organic coatings technology and its many applications. Written by three leading industry experts (including a new, internationally-recognized coatings scientist) it presents a systematic survey of the field, revises and updates the material from the previous edition, and features new or additional treatment of such topics as superhydrophobic, ice-phobic, antimicrobial, and self-healing coatings; sustainability, artist paints, and exterior architectural primers. making it even more relevant and useful for scientists and engineers in the field, as well as for students in coatings courses. The book incorporates up-to-date coverage of recent developments in the field with detailed discussions of the principles underlying the technology and their applications in the development, production, and uses of organic coatings. All chapters in this new edition have been updated to assure consistency and to enable extensive cross-referencing. The material presented is also applicable to the related areas of printing inks and adhesives, as well as areas within the plastics industry. This new edition Completely revises outdated chapters to ensure consistency and to enable extensive cross-referencing Correlates the empirical technology of coatings with the underlying science throughout Provides expert troubleshooting guidance for coatings scientists and technologists Features hundreds of illustrative figures and extensive references to the literature A new, internationally-recognized coatings scientist brings fresh perspective to the content. Providing a broad overview for beginners in the field of organic coatings and a handy reference for seasoned professionals, Organic Coatings: Science and Technology, Fourth Edition, gives you the information and answers you need, when you need them.



فهرست مطالب

Content: Chapter 1. Introduction to Coatings    1.1. Definitions and Scope    1.2. Types of Coatings    1.3. Composition of Coatings    1.4. Coating History    1.5. Commercial Considerations    Chapter 2. Polymerization and Film Formation    2.1. Polymers    2.1.1. Molecular Weight (MW)    2.1.2. Morphology and Glass Transition Temperature, Tg    2.2. Polymerization    2.2.1. Chain-Growth Polymerization
Living Polymerizations 2.2.2. Step-Growth Polymerization 2.3. Film Formation 2.3.1. Film Formation by Solvent Evaporation from Solutions of Thermoplastic Binders 2.3.2. Film Formation from Solutions of Thermosetting Resins 2.3.3. Film Formation by Coalescence of Polymer Particles Chapter 3. Flow 3.1. Shear Flow 3.2. Types of Shear Flow 3.3. Determination of Shear Viscosity 3.3.1. Capillary Viscometers 3.3.2. Rheometers 3.3.3. Rotating Disk Viscometers 3.3.4. Bubble Viscometers 3.3.5. Efflux Cups 3.3.6. Paddle Viscometers 3.4. Shear Viscosity of Resin Solutions 3.4.1. Temperature Dependence of Viscosity 3.4.2. Dilute Polymer Solution Viscosity 3.4.3. Concentrated Polymer Solution Viscosity 3.5. Viscosity of Liquids with Dispersed Phases 3.5.1. Thickeners for Latex Coatings 3.6. Other Modes of Flow 3.6.1. Turbulent Flow 3.6.2. Normal Force Flow 3.6.3. Extensional Flow Chapter 4. Mechanical Properties 4.1. Introduction 4.2. Basic Mechanical Properties 4.2.1 Glass Transition Temperature (Tg) 4.2.2 Viscoelasticity 4.2.3. Dynamic Mechanical Behavior 4.3. Formulation, Process, and Structure Effects 4.4. Fracture Mechanics 4.5. Abrasion, Scratch, and Mar Resistance 4.5.1. Abrasion Resistance 4.5.2. Scratch and Mar Resistance 4.6. Measurement of Mechanical Properties 4.7. Tests of Coatings on Substrates 4.7.1. Field Exposure Tests 4.7.2. Laboratory Simulation Tests 4.7.3. Empirical Tests Chapter 5. Exterior Durability 5.1. Photoinitiated Oxidative Degradation 5.2. Photostabilization 5.2.1. UV Absorbers and Excited State Quenchers 5.2.2. Antioxidants 5.2.3. Hindered Amine Light Stabilizers 5.2.4. Pigmentation Effects 5.3. Degradation of Chlorinated Resins 5.4. Hydrolytic Degradation 5.5. Other Modes of Failure on Exterior Exposure 5.6. Testing for Exterior Durability 5.6.1. Natural Weathering 5.6.2. Accelerated Outdoor Exposure 5.6.3. Accelerated Laboratory Weathering Devices 5.6.4. Analysis of Coating Changes During Weathering 5.7. Service Life Prediction Chapter 6. Adhesion 6.1. Mechanisms of Adhesion 6.1.1. Surface Mechanical Effects on Adhesion 6.1.2. Relationships Between Wetting and Adhesion 6.2. Mechanical Stresses and Adhesion 6.3. Adhesion to Metal Surfaces 6.3.1. Conversion Coating and Pretreatment of Metal Substrates 6.4. Characterization of Surfaces 6.5. Organic Chemical Treatment of Substrates to Enhance Adhesion 6.6. Covalent Bonding to Glass and Metal Substrates 6.7. Adhesion to Plastics and to Coatings 6.8. Testing for Adhesion Chapter 7. Corrosion Protection by Coatings 7.1. Corrosion Basics 7.2. Corrosion of Uncoated Steel 7.3. Corrosion Protection of Metals 7.3.1. Passivation Anodic Protection 7.3.2. Cathodic Protection 7.3.3. Barrier Protection and Inhibition 7.4. Corrosion Protection by Intact Coatings 7.4.1. Critical Factors 7.4.2. Adhesion for Corrosion Protection 7.4.3. Factors Affecting Oxygen and Water Permeability 7.5. Corrosion Protection by Nonintact Films 7.5.1. Minimizing Growth of Imperfections Cathodic Delamination 7.5.2. Primers with Passivating Pigments 7.5.3. Cathodic Protection by Zinc-Rich Primers 7.5.4. Smart Corrosion Control Coatings 7.6. Evaluation and Testing Chapter 8. Acrylic Resins 8.1. Thermoplastic Acrylic Resins 8.2. Thermosetting Acrylic Resins 8.2.1. Hydroxy-Functional Acrylics 8.2.2. Acrylics Having Other Functional Groups 8.3. Water-Reducible Thermosetting Acrylic Resins Chapter 9. Latexes 9.1. Emulsion Polymerization 9.1.1. Raw Materials for Emulsion Polymerization 9.1.2. Emulsion Polymerization Variables 9.1.3. Sequential Polymerization 9.2. Acrylic Latexes 9.3. Vinyl Ester Latexes 9.4. Thermosetting Latexes 9.4.1. One-Package Thermosetting Latex Coatings that Require Baking for Cure 9.4.2. Two-package (2K) Thermosetting Latex Coatings that do not Require Baking 9.4.3. One-package Thermosetting Latex Coatings that do not Require Baking Chapter 10. Polyester Resins 10.1. Hydroxy-Terminated Polyesters for Conventional Solids Coatings 10.1.1. Selection of Polyols 10.1.2. Selection of Polyacids 10.2. Polyester Resins for High Solids Coatings 10.3. Carboxylic Acid-Terminated Polyester Resins 10.4. Carbamate-Functional Polyester Resins 10.5. Water-Reducible Polyester Resins 10.6. Polyester Resins for Powder Coatings Chapter 11. Amino Resins 11.1. Synthesis of Melamine-Formaldehyde Resins 11.1.1. The Methylolation Reaction 11.1.2. The Etherification Reaction 11.1.3. Self-Condensation Reactions 11.2. Types of MF Resins 11.3. MF Polyol Reactions in Coatings 11.3.1. Catalysis of MF-Polyol Reactions 11.3.2. Kinetics and Mechanism of MF-Polyol Co-condensation 11.3.3. Package Stability Considerations 11.3.4. MF Resin Reactions with Carboxylic Acids, Urethanes, Carbamates, and Malonate-Blocked Isocyanates 11.4. Other Amino Resins 11.4.1. Urea-Formaldehyde Resins 11.4.2. Benzoguanamine-Formaldehyde Resins 11.4.3. Glycoluril-Formaldehyde Resins 11.4.4. Poly(meth)acrylamide-Formaldehyde Resins Chapter 12. Polyurethanes and Polyisocyanates 12.1. Reactions of Isocyanates 12.2. Kinetics of Isocyanate Reactions with Alcohols 12.2.1. Noncatalyzed Reactions 12.2.2. Catalysts 12.2.3. Interrelationships in Catalysis 12.3. Isocyanates Used in Coatings 12.3.1. Aromatic Isocyanates 12.3.2. Aliphatic Isocyanates 12.4. Two Package (2K) Solventborne Urethane Coatings 12.4.1. 2K Polyurea Coatings 12.5. Blocked Isocyanates 12.5.1. Principles of Blocking and Deblocking 12.5.2. Blocking Groups 12.5.3. Catalysis of Blocked Isocyanate Coatings 12.6. Moisture-Curable Urethane Coatings 12.7. Waterborne Polyurethane Coatings 12.7.1. Polyurethane Dispersions 12.7.2. Acrylic/Polyurethane Blends and Hybrid Dispersions 12.7.2.1. Cross-linked PUD/Acrylate Systems 12.7.3. 2K Waterborne Urethanes 12.8. Hydroxy-Terminated Polyurethanes Chapter 13. Epoxy and Phenolic Resins 13.1. Epoxy Resins 13.1.1. Bisphenol A Epoxy Resins 13.1.2. Other Epoxy Resins 13.2. Amine Cross-linked Epoxy Resins 13.2.1. Pot Life and Cure Time Considerations 13.2.2. Toxicity and Stoichiometric Considerations 13.2.3. Graininess and Blushing 13.2.4. Tg Considerations 13.2.5. Other Formulating Considerations 13.2.6. Waterborne Epoxy-Amine Systems 13.3. Other Cross-Linking Agents for Epoxy Resins 13.3.1. Phenols 13.3.2. Carboxylic Acids and Anhydrides 13.3.3. Hydroxyl Groups 13.3.4. Mercaptans 13.3.5. Homopolymerization 13.4. Water-Reducible Epoxy/Acrylic Graft Copolymers
Epoxy Acrylic Hybrids 13.5. Epoxy Resin Phosphate Esters 13.6. Phenolic Resins 13.6.1. Resole Phenolic Resins 13.6.2. Novolac Phenolic Resins 13.6.3. Ether Derivatives of Phenolic Resins Chapter 14. Drying Oils 14.1. Compositions of Natural Oils 14.2. Autoxidation and Cross-Linking 14.2.1. Nonconjugated Drying Oils 14.2.2. Catalysis of Autoxidation and Cross-Linking 14.2.3. Conjugated Drying Oils 14.3. Synthetic and Modified Drying Oils 14.3.1. Heat Bodied Oils, Blown Oils, and Dimer Acids 14.3.2. Varnishes 14.3.3. Synthetic Conjugated Oils 14.3.4. Esters of Higher Functionality Polyols 14.3.5. Maleated Oils 14.3.6. Vinyl-Modified Oils Chapter 15. Alkyd Resins 15.1. Oxidizing Alkyds 15.1.1. Monobasic Acid Selection 15.1.2. Polyol Selection 15.1.3. Dibasic Acid Selection 15.2. High Solids Oxidizing Alkyds 15.3. Water-Borne Oxidizing Alkyds 15.3.1. Water-Reducible Alkyds 15.3.2. Alkyd Emulsions 15.4. Nonoxidizing Alkyds 15.5. Synthetic Procedures for Alkyd Resins 15.5.1. Synthesis from Oils or Fatty Acids 15.5.2. Process Variations 15.6. Modified Alkyds 15.7. Uralkyds and Other Autoxidizable Urethanes 15.7.1. Uralkyds 15.7.2. Autoxidizable Polyurethane Dispersions 15.8. Epoxy Esters Chapter 16. Silicon Derivatives 16.1. Silicones 16.1.1. Silicone Rubbers and Resins 16.1.2. Modified Silicone Resins 16.1.3. Silicone-Modified Resins 16.2. Reactive Silanes 16.3. Orthosilicates 16.3.1. Sol-Gel Coatings Chapter 17. Other Resins and Cross-linkers 17.1. Halogenated Polymers 17.1.1. Solution Grade Thermoplastic Vinyl Chloride Copolymers 17.1.2. Vinyl chloride Dispersion Copolymers 17.1.3. Chlorinated Rubber, Chlorinated Ethylene/Vinyl Acetate Copolymer, and Chlorinated Polyethylene 17.1.4. Fluorinated Polymers 17.2. Cellulose Derivatives Soluble in Organic Solvents 17.2.1. Nitrocellulose 17.2.2. Cellulose Acetobutyrate 17.3. Unsaturated Polyester Resins 17.4. (Meth)acrylated Oligomers 17.5. 2-Hydroxyalkylamide Cross-Linkers 17.6. Acetoacetate Cross-Linking Systems 17.7. Polyaziridine Cross-Linkers 17.8. Polycarbodiimide Cross-Linkers 17.9. Polycarbonates 17.10. Non-Isocyanate Two-Package Binders 17.10.1. Carbamate-Aldehyde Chemistry 17.10.2. Michael Addition Chemistry 17.11. Dihydrazides Chapter 18. Solvents 18.1. Solvent Composition 18.2. Solubility 18.2.1. Solubility Parameters 18.2.2. Three-Dimensional Solubility Parameters 18.2.3. Other Solubility Theories 18.2.4. Practical Considerations 18.3. Solvent Evaporation Rates 18.3.1. Evaporation of Single Solvents 18.3.2. Relative Evaporation Rates 18.3.3. Evaporation of Mixed Solvents 18.3.4. Evaporation of Solvents from Coating Films 18.3.5. Evaporation of Solvents from High Solids Coatings 18.3.6. Volatile Loss from Waterborne Coatings 18.4. Viscosity Effects 18.5. Flammability 18.6. Other Physical Properties 18.7. Toxic Hazards 18.8. Atmospheric Photochemical Effects 18.9. Regulation of Solvent Emission from Coatings 18.9.1. Determination of VOC 18.9.2. Regulations Chapter 19. Color and Appearance 19.1. Light 19.2. Light-Object Interactions 19.2.1. Surface Reflection 19.2.2. Absorption Effects 19.2.3. Scattering 19.2.4. Multiple Interaction Effects 19.3. Hiding 19.4. Metallic and Interference Colors 19.5. The Observer 19.6. Interactions of Light Source, Object, and Observer 19.7. Color Systems 19.8. Color Mixing 19.9. Color Matching 19.9.1. Information Requirements 19.9.2. Color Matching Procedures 19.9.3. Rendering of Color 19.10. Gloss 19.10.1. Variables in Specular Gloss 19.10.2. Gloss Measurement Chapter 20. Pigments 20.1. White Pigments 20.1.1. Titanium Dioxide 20.1.2. Other White Pigments 20.2. Color Pigments 20.2.1. Yellow and Orange Pigments 20.2.2. Red Pigments 20.2.3. Blue and Green Pigments 20.2.4. Black Pigments 20.2.5. Effect Pigments: Metallic, Interference, and Cholesteric Pigments 20.3. Inert Pigments 20.4. Functional Pigments 20.5. Nano-Pigments Chapter 21. Pigment Dispersion 21.1. Dispersion in Organic Media 21.1.1. Wetting 21.1.2. Separation 21.1.3. Stabilization 21.2. Formulation of Nonaqueous Mill Bases 21.2.1. Daniel Flow Point Method 21.2.2. Oil Absorption Values 21.3. Dispersions in Aqueous Media 21.3.1. Stabilization of aqueous dispersions 21.4. Dispersion Equipment and Processes 21.4.1. High-Speed Disk (HSD) Dispersers 21.4.2. Rotor/Stator Mixers 21.4.3. Ball Mills 21.4.4. Media Mills 21.4.5. Three Roll and Two Roll Mills 21.4.6. Extruders 21.4.7. Ultrasound 21.4.8. Stir-in Pigments 21.5. Evaluation of Dispersions Chapter 22. Effect of Pigments on Coating Properties 22.1. PVC and CPVC 22.1.1. Factors Controlling CPVC 22.1.2. Determination of CPVC 22.1.3. CPVC of Latex Coatings 22.2. Relationships Between Film Properties and PVC 22.2.1. Mechanical Properties 22.2.2. Effects of Porosity 22.2.3. Effects on Curing and Film Formation Chapter 23. Application Methods 23.1. Brushes, Pads, and Hand Rollers 23.1.1. Brush and Pad Application 23.1.2. Hand Roller Application 23.2. Spray Application 23.2.1. Air Spray Guns 23.2.2. Airless Spray Guns 23.2.3. Electrostatic Spraying 23.2.4. Hot Spray 23.2.5. Supercritical Fluid Spray 23.2.6. Formulation Considerations for Spray-Applied Coatings 22.2.7. Overspray Disposal 23.3. Dip and Flow Coating 23.4. Roll Coating 23.5. Curtain Coating Chapter 24. Film Defects 24.1. Surface Tension 24.2. Leveling 24.3. Sagging and Drip Marks 24.4. Crawling, Cratering, and Related Defects 24.5. Floating and Flooding
Hammer Finishes 24.6. Wrinkling
Wrinkle Finishes 24.7. Bubbling and Popping 24.8. Foaming 24.9. Dirt Chapter 25. Solventborne and High Solids Coatings 25.1. Primers 25.1.1. Binders for Primers 25.1.2. Pigmentation of Primers 25.1.3. High Solids Primers 25.2. Top Coats 25.2.1. Binders for Top Coats 25.2.2. Formulating Solventborne Coatings for Lower VOC Chapter 26. Waterborne Coatings 26.1. Water-Reducible Coatings 26.2. Latex-Based Coatings 26.3. Emulsion Coatings Chapter 27. Electrodeposition Coatings 27.1. Anionic Electrodeposition Coatings 27.2. Cationic Electrodeposition Coatings 27.3. Effect of Variables on Electrodeposition 27.4. Application of Electrodeposition Coatings 27.5. Advantages and Disadvantages of Electrodeposition 27.6. Autodeposition Coatings Chapter 28. Powder Coatings 28.1. Binders for Thermosetting Powder Coatings 28.1.1. Epoxy Binders 28.1.2. Hybrid Binders 28.1.3. Polyester Binders 28.1.4. Acrylic Binders 28.1.5. Silicon-Containing Binders 28.1.6. UV Cure and Hot Press Powder Coatings 28.2. Binders for Thermoplastic Powder Coatings 28.3. Formulation of Thermosetting Powder Coatings 28.3.1. Low Gloss Powder Coatings 28.4. Manufacture of Powder Coatings 28.4.1. Production 28.4.2. Quality Control 28.5. Application Methods 28.5.1. Electrostatic Spray Application 28.5.2. Other Application Methods 28.6. Advantages and Limitations Chapter 29. Radiation Cure Coatings 29.1. UV Curing 29.1.1. Absorption the Primary Process 29.2. Free Radical Initiated UV Cure 29.2.1. Unimolecular (Type I or PI1) Photoinitiators 29.2.2. Bimolecular (Type II or PI2) Photoinitiators 29.2.3. Macromolecular Photoinitiators 29.2.4. Oxygen Inhibition 29.2.5. Vehicles for Free Radical Initiated UV Cure 29.2.6. Waterborne UV Cure Coatings 29.3. Cationic UV Cure 29.3.1. Vehicles for Cationic UV Cure 29.4. Hybrid Free Radical/Cationic Polymerization 29.5. Effects of Pigmentation 29.6. Electron Beam Cure Coatings 29.7. Dual UV/Thermal Cure 29.8, Selected Applications 29.9. Advantages, Disadvantages and Selected Advances Chapter 30. Product Coatings for Metal Substrates 30.1. OEM Automotive Coatings 30.1.1. Automotive Paint Process 30.1.2. Electrodeposition Coating Formulation 30.1.3. Automotive Primers 30.1.4. Automotive Basecoats 30.1.5. Automotive Clearcoats 30.1.6. Factory Repair Procedures 30.2. Appliance Coatings 30.3. Container Coatings 30.3.1. Interior Can Linings 30.3.2. Exterior Can Coatings 30.4. Coil Coating 30.4.1. Advantages and Limitations of Coil Coating 30.5. Coatings for Aircraft Chapter 31. Product Coatings for Nonmetallic Substrates 31.1. Coatings for Wood 31.1.1. Coatings for Wood Furniture 31.1.2. Waterborne Wood Finishes 31.1.3. UV-Cured Furniture Finishes 31.1.4. Panel, Siding and Flooring Finishes 31.2. Coating of Plastics 31.2.1. In-Mold Coating 31.2.2. Post-Mold Coating Chapter 32. Architectural Coatings 32.1. Exterior House Paints and Primers 32.2. Flat and Semigloss Interior Paints 32.3. Gloss Enamels 32.3.1. Alkyd Gloss Enamels 32.3.2. Latex Gloss Enamels Chapter 33. Special Purpose Coatings 33.1. Maintenance Paints 33.1.1. Barrier Coating Systems 33.1.2. Systems with Zinc-Rich Primers 33.1.3. Systems with Passivating Pigment Containing Primers 33.1.4. Overcoating Existing Industrial Maintenance Paints 33.2. Marine Coatings 33.2.1. Above the Water Line and Interior 33.2.2. At and Below the Water Line 33.2.3. Other Types of Marine Coatings 33.3. Automobile Refinish Paints 33.4. Traffic Striping Paints Chapter 34. Functional Coatings 34.1. Superhydrophobic and Superhydrophilic Coatings 34.2. Ice-phobic Coatings 34.3. Self-Healing Coatings 34.4. Environmentally Sensing Coatings 34.5. Antimicrobial Coatings




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