Protective Organic Coatings with Anticorrosive and Other Feedback-Active Features: Micro-and Nanocontainers-Based Approach

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Authors:
GRIGORIEV, D
AKCAKAYIRAN, D
SCHENDERLEIN, M
SHCHUKIN, D
Author Affiliations:
Max-Plank Institute of Colloids and Interfaces, Am Muehlenberg 1, Potsdam-Golm 14476, Germany
Source:
2013 Research Topical Symposium Proceedings - Functionalized Coatings for Durable Materials and InterfacesCorrosion (Houston, Tex.). 70(5):446-463
Publication Date:
2014-01-01
Language:
English

Abstract

Abstract:
Development of materials possessing the ability to recover their main function(s) in response to destructive impacts is, today, one of most rapidly growing fields in material science. In particular, protective organic coatings with the features to heal or restore their protective function autonomously are of great interest infighting surface deterioration processes like corrosion, biofouling, and other affecting metallic structures. Embedding of micro- and nanocontainers in protective coatings is a frequently used technique nowadays to provide them one or several feedback-active functionalities. Depending on the container's morphology and active agent(s) filled, coatings with specifically aimed self-recovering functionalities (anticorrosive, water-repelling, antifouling, etc.) or multifunctional coatings can be created. In the present paper, different types of containers for self-recovering functional coatings synthesized by use of mesoporous nano- and microparticles or on the emulsion basis are presented. L-b-L polyelectrolyte deposition, interfacial polymerization, surface precipitation, Pickering emulsions, and in situ emulsion polymerization were utilized for the preparation of nano- or micro-scaled containers. Morphology of containers, efficiency of encapsulation, and kinetics of active agents release were investigated using modem techniques such as transmission mode in the scanning electron microscopy (T-SEM), cryo scanning electron microscopy (Cryo-SEM), etc. Incorporation of containers in the coating matrix was followed by the experimental modeling of external impacts, leading to simultaneous container damage. Subsequent release of the active agent at the affected site caused the active feedback of the coating and self-recovery of its specific protective function. The advantages of novel container-based protective coatings as compared to conventional ones are illustrated by corrosion tests results according to ASTM Standard B117.
Notes:
Metals. Metallurgy

Subjects

Subjects:
Metallurgy, welding
Métallurgie, soudage
Sciences exactes et technologie
Exact sciences and technology
Sciences appliquees
Applied sciences
Metaux. Metallurgie
Metals. Metallurgy
Transformation de matériaux métalliques
Production techniques
Traitements de surface
Surface treatment
Dépôt de matériaux non métalliques
Nonmetallic coatings
Corrosion
Action des agents de corrosion
Corrosion environments
Protection contre la corrosion
Corrosion prevention
Traitement surface
Surface treatment
Tratamiento superficie
Oberflaechenbehandlung
Composé organique
Organic compounds
Compuesto orgánico
Organische Verbindung
Corrosion
Corrosión
Korrosion
Couche protectrice
Protective layer
Capa protectora
Schutzschicht
Protection corrosion
Corrosion protection
Protección corrosión
Korrosionsschutz
Revêtement non métallique
Non metal coating
Revestimiento no metálico
Nichtmetallischer Ueberzug
Revêtement protecteur
Protective coatings
Revestimiento protector
Schutzueberzug
Système intelligent
Intelligent system
Sistema inteligente
coatings
corrosion
multifunctional
nanoscale materials
self-healing
smart materials

Details

Format:
Academic Journal
Database:
PASCAL Archive
Journal:
2013 Research Topical Symposium Proceedings - Functionalized Coatings for Durable Materials and Interfaces
Volume:
70
Issue:
5
Page Start:
446
Page Count:
18
ISSN:
00109312
Publisher:
Houston, TX: NACE International, 2014.
Document Type:
Article
Physical Description:
print, 46 ref