Powder and High-Solid Coatings as Anticorrosive Solutions for Marine and Offshore Applications? A Review

Pélissier, Krystel; Thierry, Dominique

doi:10.3390/coatings10100916

Cited by 29 publications

(18 citation statements)

References 133 publications

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Section: Resultsmentioning

confidence: 99%

“…[31,32] Different mechanical internal stresses derived from temperature cycles experienced could lead to a slightly different magnitude of coating alteration appreciable by 60°glossmeter employment. [33][34][35] In comparison, also the total gloss loss measured after the UVB accelerated test is reported in the graph as dashed horizontal lines. Note that the gloss loss after 300 h under UVB is lower compared with the effect of 1 year of natural exposure.…”

Section: Resultsmentioning

confidence: 99%

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Comparative study between natural and artificial weathering of acrylic‐coated steel, aluminum, and galvanized steel

Cristoforetti

Rossi

Deflorian

et al. 2023

Materials & Corrosion

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Since testing organic coatings under natural conditions is a time‐consuming process, accelerated methods are needed to produce results in less time. A simulated environment cannot fully reproduce actual operating conditions, so it is important to investigate the correlation between accelerated and natural aging test results. In this article, the natural aging of painted steel, aluminum, and hot‐dip galvanized steel is studied for 1 year under continental climate conditions. The environmental parameters responsible for the change of the protective system in a continental urban environment were monitored: time of wetness, ultraviolet radiation, and temperature. The extent of deterioration is compared with similar samples weathered by accelerated testing using electrochemical impedance spectroscopy, differential scanning calorimetry, and gloss measurements. Neutral salt spray chamber, prohesion test, immersion in a quiescent salt solution, and ultraviolet B‐rays (UVB) exposure test are considered. The results of the accelerated cabinet tests are discussed, and the effect is evaluated for the various coated metals. This study highlights the major problems encountered in building a model to predict durability in such a critical area as the durability of organic coatings for metal structures.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Comparative study between natural and artificial weathering of acrylic‐coated steel, aluminum, and galvanized steel

Cristoforetti

Rossi

Deflorian

et al. 2023

Materials & Corrosion

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“…In this process, charged powder coating particles (consisting of polymers, cross-linkers, and additives) are attracted to the electrically earthed substrate, producing a thin uniform coating across the entirety of the metal surface. − High-optical clarity powder coatings for high aesthetic demand applications, such as the protection of aluminum alloy wheels, are typically based on epoxide functional acrylic copolymers, cross-linked with flexible C8–C12 diacids such as sebacic or dodecanoic acid. Such coatings deliver a combination of excellent mechanical properties, chemical resistance, and optical clarity. ,− Polymer coatings act as a physical barrier protecting the metal surface from corrosion; however, this passive protection is only effective as long as the coating remains intact and the entire wheel (including edges) is coated with a protective layer of polymer. − …”

Section: Introductionmentioning

confidence: 99%

pH-Responsive, Thermoset Polymer Coatings for Active Protection against Aluminum Corrosion

Watson,

Balmforth,

Gray

et al. 2024

ACS Appl. Mater. Interfaces

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This paper describes the synthesis and use of multifunctional methacrylic monomers, which contain basic (amine) functional groups, including an example in which an acid-labile tert-butylcarbamate-protected glycine is used to form a novel methacrylic monomer. The "protected" amino acid-derived functional monomer (BOC-Gly-MA) is copolymerized with an epoxide functional methacrylic monomer (GMA), to deliver novel multifunctional polymers, which are processed into powder coatings and used to study filiform corrosion at the surface of an aluminum substrate. The BOC-Gly-MA-containing copolymers were shown to improve a coating's anticorrosion performance, presenting the lowest average filiform corrosion (FFC) track length, total FFC number, and total corroded surface area (CSA) of the coatings investigated. Further to this, a mode of action for the role of BOC-Gly functional polymers in corrosion protection is proposed, supported by both solution and polymer−aluminum interface studies, delivering new insights into the mode of action of pH-responsive polymer coatings.

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“…Thermoset coatings are a broad group of materials, including different types of resins and hardeners [ 5 ]. Currently, the trends in the powder coatings market include improving their durability, lowering the curing temperature, and environmental aspects of paint manufacturing [ 6 ].…”

Section: Introductionmentioning

confidence: 99%

Accelerated Corrosion Tests in Quality Labels for Powder Coatings on Galvanized Steel—Comparison of Requirements and Experimental Evaluation

2021

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Powder coatings are widely applied for corrosion protection of steel, aluminum, and hot dip galvanized steel in a variety of corrosive environments. Powder coatings are subjected to a number of strict laboratory tests to determine their mechanical properties, corrosion resistance, and color stability. Among European quality certificates for powder coatings applied to galvanized steel, the most commonly recognized are GSB-ST and Qualisteelcoat certificates, which also refer to the EN 13438 standard. Certificates of quality for powder coatings are constantly updated according to the latest research results and experience of specialists operating in the field of corrosion protection. This paper presents an experimental evaluation of how the required length of selected accelerated corrosion tests can affect the final assessment of powder coatings. On the example of two powder painting systems: polyester as well as based on epoxy and polyester resins, the paper presents the influence of the time of accelerated corrosion tests: ISO 6270, ISO 9227 (Neutral Salt Spray and Acetic Acid Salt Spray), and ISO 3231 on the protective properties of the coatings. The results of damage assessment according to ISO 4628 have been correlated with the requirements of particular quality specifications. Additionally, based on FTIR (Fourier Transform Infrared Spectroscopy) and EIS (Electrochemical Impedance Spectroscopy) analyses, the influence of the applied corrosion tests on the degradation degree of the coatings studied has been presented. The paper aims to present a tests for those powder coating systems applied to facilities for which the main requirement is corrosion resistance rather than aesthetics.

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Powder and High-Solid Coatings as Anticorrosive Solutions for Marine and Offshore Applications? A Review

Cited by 29 publications

References 133 publications

Comparative study between natural and artificial weathering of acrylic‐coated steel, aluminum, and galvanized steel

Comparative study between natural and artificial weathering of acrylic‐coated steel, aluminum, and galvanized steel

pH-Responsive, Thermoset Polymer Coatings for Active Protection against Aluminum Corrosion

Accelerated Corrosion Tests in Quality Labels for Powder Coatings on Galvanized Steel—Comparison of Requirements and Experimental Evaluation

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