Corrosion Control Through Organic Coatings (Corrosion Technology) by: Amy Forsgren
Corrosion Control Through Organic Coatings (Corrosion Technology) by: Amy Forsgren
Publisher: CRC Press | 1 edition (25 April 2006) | ISBN: 084937278X | Pages: 184 | PDF | 5.1 MB
# Provides rapid access to coating types, pretreatments, corrosion tests, laboratory techniques, and disposal issues in a singe, concise reference book
# Contains up-to-date and accurate information on the composition, protection mechanisms, and aging mechanisms of various coatings
# Details effective techniques for removing lead-based paints from older steel structures
# Reviews a wide range of pretreatments including wet and dry abrasive blasting, hydrojetting, stabilizers, fillers, and other unconventional techniques such as dry ice and lasers
# Highlights advanced analytical techniques, accelerated aging methods and the salt spray test used for corrosion testing
# Addresses waterborne paints and their reaction with zinc-coated substrates, which is an increasingly popular choice in industrial and infrastructure applications
Choosing the most suitable coatings for structures such as bridges and building supports can extend the service life of that structure significantly. Corrosion Control Through Organic Coatings discusses the most important variables in the testing, selection, and application of heavy-duty, organic corrosion-protection paints. The book addresses the maintenance and restoration of older infrastructure and industrial plant as well as coatings for new structures made from various types of steel.
The author, Amy Forsgren, examines the mechanisms of aging and deterioration caused by ultraviolet light, condensation, temperature, and chemical reactions. She also provides a complete description of composition of anti-corrosive organic coatings, including pigments, binders, and additives. Ms. Forsgren suggests which corrosion tests provide the most useful information on coating performance and corrosion-protection. Several chapters review the advantages and disadvantages of of different surface preparation methods. In addition, the author considers the environmental impact of various coatings and recognizes health hazards posed by volatile organic compounds (VOC's), toxic or hazardous pigments such as lead, and silica dust exposure. She also offers recommendations for providing safe working environments for personnel handling surface preparation.
Integrating engineering aspects and corrosion expertise with paint formulation knowledge and surface chemistry, Corrosion Control Through Organic Coatings provides unique coverage of the most advanced treatments for extending the life span of heavy-duty metal structures today.
Table of Contents
INTRODUCTION
Scope of the Book
Protection Mechanisms of Organic Coatings
References
COMPOSITION OF THE ANTICORROSION COATING
Coating Composition Design
Binder Types
Corrosion-Protective Pigments
Additives
References
WATERBORNE COATINGS
Technologies for Polymers in Water
Water versus Organic Solvents
Latex Film Formation
Minimum Film Formation Temperature
Flash Rusting
References
BLAST CLEANING AND OTHER HEAVY SURFACE PRETREATMENTS
Introduction to Blast Cleaning
Dry Abrasive Blasting
Wet Abrasive Blasting and Hydrojetting
Unconventional Blasting Methods
Testing for Contaminants after Blasting
Dangerous Dust: Silicosis and Free Silica
References
ABRASIVE BLASTING AND HEAVY-METAL CONTAMINATION
Detecting Contamination
Minimizing the Volume of Hazardous Debris
Methods for Stabilizing Lead
Debris as Filler in Concrete
Other Filler Uses
References
WEATHERING AND AGING OF PAINT
UV Breakdown
Moisture
Temperature
Chemical Degradation
References
CORROSION TESTING - BACKGROUND AND THEORETICAL CONSIDERATIONS
The Goal of Accelerated Testing
What Factors Should Be Accelerated?
Why There is no Single Perfect Test
References
CORROSION TESTING - PRACTICE
Some Recommended Accelerated Aging Methods
Evaluation after Accelerated Aging
Calculating Amount of Acceleration and Correlations
Salt Spray Test
References
Index
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Corrosion Control Through Organic Coatings (Corrosion Technology) by: Amy Forsgren
Publisher: CRC Press | 1 edition (25 April 2006) | ISBN: 084937278X | Pages: 184 | PDF | 5.1 MB
# Provides rapid access to coating types, pretreatments, corrosion tests, laboratory techniques, and disposal issues in a singe, concise reference book
# Contains up-to-date and accurate information on the composition, protection mechanisms, and aging mechanisms of various coatings
# Details effective techniques for removing lead-based paints from older steel structures
# Reviews a wide range of pretreatments including wet and dry abrasive blasting, hydrojetting, stabilizers, fillers, and other unconventional techniques such as dry ice and lasers
# Highlights advanced analytical techniques, accelerated aging methods and the salt spray test used for corrosion testing
# Addresses waterborne paints and their reaction with zinc-coated substrates, which is an increasingly popular choice in industrial and infrastructure applications
Choosing the most suitable coatings for structures such as bridges and building supports can extend the service life of that structure significantly. Corrosion Control Through Organic Coatings discusses the most important variables in the testing, selection, and application of heavy-duty, organic corrosion-protection paints. The book addresses the maintenance and restoration of older infrastructure and industrial plant as well as coatings for new structures made from various types of steel.
The author, Amy Forsgren, examines the mechanisms of aging and deterioration caused by ultraviolet light, condensation, temperature, and chemical reactions. She also provides a complete description of composition of anti-corrosive organic coatings, including pigments, binders, and additives. Ms. Forsgren suggests which corrosion tests provide the most useful information on coating performance and corrosion-protection. Several chapters review the advantages and disadvantages of of different surface preparation methods. In addition, the author considers the environmental impact of various coatings and recognizes health hazards posed by volatile organic compounds (VOC's), toxic or hazardous pigments such as lead, and silica dust exposure. She also offers recommendations for providing safe working environments for personnel handling surface preparation.
Integrating engineering aspects and corrosion expertise with paint formulation knowledge and surface chemistry, Corrosion Control Through Organic Coatings provides unique coverage of the most advanced treatments for extending the life span of heavy-duty metal structures today.
Table of Contents
INTRODUCTION
Scope of the Book
Protection Mechanisms of Organic Coatings
References
COMPOSITION OF THE ANTICORROSION COATING
Coating Composition Design
Binder Types
Corrosion-Protective Pigments
Additives
References
WATERBORNE COATINGS
Technologies for Polymers in Water
Water versus Organic Solvents
Latex Film Formation
Minimum Film Formation Temperature
Flash Rusting
References
BLAST CLEANING AND OTHER HEAVY SURFACE PRETREATMENTS
Introduction to Blast Cleaning
Dry Abrasive Blasting
Wet Abrasive Blasting and Hydrojetting
Unconventional Blasting Methods
Testing for Contaminants after Blasting
Dangerous Dust: Silicosis and Free Silica
References
ABRASIVE BLASTING AND HEAVY-METAL CONTAMINATION
Detecting Contamination
Minimizing the Volume of Hazardous Debris
Methods for Stabilizing Lead
Debris as Filler in Concrete
Other Filler Uses
References
WEATHERING AND AGING OF PAINT
UV Breakdown
Moisture
Temperature
Chemical Degradation
References
CORROSION TESTING - BACKGROUND AND THEORETICAL CONSIDERATIONS
The Goal of Accelerated Testing
What Factors Should Be Accelerated?
Why There is no Single Perfect Test
References
CORROSION TESTING - PRACTICE
Some Recommended Accelerated Aging Methods
Evaluation after Accelerated Aging
Calculating Amount of Acceleration and Correlations
Salt Spray Test
References
Index
دانلود