| Titre : |
Investigating the long-term effects of immersion in salt solutions on the protective properties of bio-content polyurethane coatings |
| Type de document : |
texte imprimé |
| Auteurs : |
Douglas J. Mills, Auteur ; Tomasz Wityk, Auteur ; Piszczyk Lukasz, Auteur |
| Année de publication : |
2020 |
| Article en page(s) : |
p. 188-192 |
| Note générale : |
Bibliogr. |
| Langues : |
Anglais (eng) |
| Catégories : |
Analyse mécanique dynamique
Anticorrosifs
Anticorrosion
Biomasse
Electrochimie
Evaluation
Métaux -- Revêtements protecteurs
Polyuréthanes
PrépolymèresUn pré-polymère ou prépolymère est un oligomère ou un polymère présentant des groupes réactifs qui lui permettent de participer à une polymérisation ultérieure et d’incorporer ainsi plusieurs unités monomères dans au moins une chaîne de la macromolécule finale.
Les pré-polymères peuvent être di-fonctionnels (c'est le cas des pré-polymères téléchéliques) ou plurifonctionnels. Dans ce dernier cas, ils sont utilisés pour la fabrication de polymères thermodurcissables par réticulation.
Revêtements organiques
Solutions (chimie)
Transition vitreuse
|
| Index. décimale : |
667.9 Revêtements et enduits |
| Résumé : |
One of the ways to protect metals against corrosion is to coat them with polymers that act as a predominantly ionic barrier and/or contain corrosion inhibitors. As a consequence, the corrosion redox reactions are hindered and corrosion is reduced to a negligible (passivation current) rate. However, polymers undergo various processes of degradation in the harsh environments where some coatings are used. Therefore, for long-term protection it is important to know the different degradation mechanisms of the polymer. A popular type of anti-corrosive organic coating is based on polyurethane. The degradation of these coatings with a biomass component has been investigated in this work. The resins were synthesised using 'single-step' and 'prepolymer' methods. Castor oil was added to the systems thereby contributing to the lowering the amount of fossil fuel-based chemical compounds in the final product. The samples were subjected to immersion in 3% sodium chloride solution for about three months. The values of DC resistance, which is a measure of barrier effectiveness, decreased with time. Dynamic Mechanical Analysis results showed that increasing the castor oil content of the polyurethane coatings resulted in higher glass transition temperatures and higher crosslink densities. |
| Note de contenu : |
- Coating materials an dpreparation
- 'Single-step' method
- 'Prepolymer' method
- Evaluation of corrosion protection
- DC resistance measurement
- Dynamic mechanical analysis (DMA)
- Table 1 : Composition of polyurethane coatings prepared by 'single-step' method
- Table 2 : Composition of polyurethane coatings prepared by 'prepolymer' method
- Table 3 : Bacon, Rugg and Smith scale relating to the protection against corrosion on the basis of the DC resistance value
- Table 4 : Glass transition temperatures of PU coatings
- Fig. 1 : Schematic of electrochemical measurement system of attached coatings
- Fig. 2 : DC resistance as a function of time for polyurethane coatings on steel as prepared by 'prepolymer' method when immersed in 3% NaCl solution over 104 days
- Fig. 3 : DC resistance as a function of time for polyurethane coatings on steel as prepared by the 'single-step' method when immersed in 3% sodium chloride solution over 104 days
- Fig. 4 : Storage modulus of the obtained PU coatings against temperature
- Fig. 5 : Loss modulus ratio tan δ of the obtained PU coating against temperature |
| En ligne : |
https://drive.google.com/file/d/1-wFxMux1EWjuVW71jh9HIREeipTTDcMa/view?usp=drive [...] |
| Format de la ressource électronique : |
Pdf |
| Permalink : |
https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=34428 |
in SURFACE COATINGS INTERNATIONAL > Vol. 103.4 (07-08/2020) . - p. 188-192
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