Corrosion control through organic coatings
Saved in:
| Main Authors | , |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Boca Raton :
A CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the Academic Division of T & F Informa, plc,
[2017]
|
| Edition | Second edition. |
| Series | Corrosion technology.
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9781351649223 1351649221 9781523113682 1523113685 9781498760737 1498760732 9781498760720 1498760724 9781315153186 1315153181 |
| Physical Description | 1 online resource |
Cover
Table of Contents:
- Cover; Half Title; Title Page; Copyright Page; Contents; Preface; Acknowledgments; Authors; Chapter 1 Introduction; 1.1 Scope of the Book; 1.2 Target Group Description; 1.3 Coated Metal System; References; Chapter 2 Protection Mechanisms of Organic Coatings; 2.1 Barrier against Oxygen and Water; 2.2 Stabilizing the Passivating Surface Oxide; 2.3 Cathodic Protection; 2.4 Passivating the Substrate with Pigments; 2.5 Durable Protection; References; Chapter 3 Generic Types of Anticorrosion Coatings; 3.1 Coating Composition Design; 3.2 Binder Types; 3.3 Epoxies; 3.3.1 Chemistry.
- 3.3.2 Ultraviolet Degradation3.3.3 Variety of Epoxy Paints; 3.3.3.1 Epoxy Mastics; 3.3.3.2 Solvent-Free Epoxies; 3.3.3.3 Glass Flake Epoxies; 3.3.3.4 Epoxy Novolac; 3.3.4 Health Issues; 3.4 Acrylics; 3.4.1 Chemistry; 3.4.2 Saponification; 3.4.3 Copolymers; 3.5 Polyurethanes; 3.5.1 Moisture-Cure Urethanes; 3.5.2 Chemical-Cure Urethanes; 3.5.3 Blocked Polyisocyanates; 3.5.4 Health Issues; 3.5.5 Waterborne Polyurethanes; 3.6 Polyesters; 3.6.1 Chemistry; 3.6.2 Saponification; 3.6.3 Fillers; 3.7 Alkyds; 3.7.1 Chemistry; 3.7.2 Saponification; 3.7.3 Immersion Behavior; 3.7.4 Brittleness.
- 3.7.5 Darkness Degradation3.8 Polysiloxanes; 3.8.1 Chemistry; 3.8.2 Performance of Polysiloxane Coating Systems; 3.9 Other Binders; 3.9.1 Epoxy Esters; 3.9.2 Silicate-Based Inorganic Zinc-Rich Coatings; References; Chapter 4 Corrosion-Protective Pigments; 4.1 Zinc Dust; 4.1.1 Types of Zinc-Rich Paint; 4.1.2 Protection Mechanisms; 4.1.3 Topcoating Zinc-Rich Paint or Not; 4.1.4 Choosing a Zinc-Rich Paint; 4.2 Phosphates; 4.2.1 Zinc Phosphates; 4.2.2 Types of Zinc Phosphates; 4.2.3 Accelerated Testing and Why Zinc Phosphates Sometimes Fail; 4.2.4 Aluminum Triphosphate; 4.2.5 Other Phosphates.
- 4.3 Ferrites4.4 Other Inhibitive Pigments; 4.4.1 Calcium-Exchanged Silica; 4.4.2 Barium Metaborate; 4.4.3 Molybdates; 4.4.4 Silicates; 4.5 Barrier Pigments; 4.5.1 Micaceous Iron Oxide; 4.5.2 Mica; 4.5.3 Glass; 4.5.4 Aluminum; 4.5.5 Zinc Flakes; 4.5.6 Other Metallic Pigments; 4.6 Choosing a Pigment; 4.7 Abandoned Pigments Due to Toxicity; 4.7.1 Lead-Based Paint; 4.7.2 Chromates; References; Chapter 5 Waterborne Coatings; 5.1 Technologies for Polymers in Water; 5.1.1 Water-Reducible Coatings and Water-Soluble Polymers; 5.1.2 Aqueous Emulsion Coatings; 5.1.3 Aqueous Dispersion Coatings.
- 5.2 Water versus Organic Solvents5.3 Latex Film Formation; 5.3.1 Driving Force of Film Formation; 5.3.2 Humidity and Latex Cure; 5.3.3 Real Coatings; 5.3.3.1 Pigments; 5.3.3.2 Additives; 5.4 Minimum Film Formation Temperature; 5.4.1 Wet MFFT and Dry MFFT; 5.5 Flash Rusting; References; Chapter 6 Powder Coatings; 6.1 Generic Types of Powder Coatings and Range of Use; 6.1.1 Thermoplastic Powder Coatings; 6.1.2 Thermosetting Powder Coatings; 6.2 Powder Production; 6.3 Application Technology; 6.3.1 Electrostatic Spraying; 6.3.2 Fluidized Bed; 6.3.3 Flame Spraying; 6.3.4 Flocking Gun.