[article]
| Titre : |
Silyl-containing polyurethanes that selectively disassemble with fluoride salts |
| Type de document : |
texte imprimé |
| Auteurs : |
Erick B. Iezzi, Auteur ; Eugène Camerino, Auteur ; Grant C. Daniels, Auteur ; James H. Wynne, Auteur |
| Année de publication : |
2020 |
| Article en page(s) : |
p. 26-32 |
| Note générale : |
Bibliogr. |
| Langues : |
Américain (ame) |
| Catégories : |
Fluorures
Polymères -- Détérioration
Polymères à silane modifié
Polyuréthanes
Revêtements -- Détérioration
Revêtements organiques
|
| Index. décimale : |
667.9 Revêtements et enduits |
| Résumé : |
Crosslinked networks, such as two-component polyurethanes, are used for numerous commercial applications because of their unique mechanical, thermal, and hydrocarbon resistant properties. However, the covalently bonded linkages in these materials are irreversible, which renders them difficult to degrade and destroy unless hazardous chemicals, mechanical abrasion, or thermal treatments are employed. Many of these treatments are labor-intensive, expensive, or present environmental and health concerns. To address these issues, we have developed a novel silyl-based technology that imparts degradable capabilities to crosslinked polyurethane networks, such as coatings. These silyl-containing polyurethanes are thermally stable and highly crosslinked, yet they will disassemble on demand via cascading bond cleavage when exposed to a selective, mild, and environmentally friendly fluoride salt solution. Furthermore, these polyurethanes are resistant to disassembly with strong acid and base solutions, which demonstrates their selectivity and robustness compared to other degradable crosslinked networks. |
| Note de contenu : |
- Fig. 1 : Removal of the crosslinked polyurethane coating on Navy Aircraft using a methylene chloride-based paint stripper and mechanical sanders
- Fig. 2 : Illustration of a brick house degrading into powder upon contact with rain droplets
- Fig. 3 : Structures of silyl-centered diols, silyl-centered triol, and isocyanate crosslinkers used to form crosslinked polyurethane networks
- Fig. 4 : Illustrations of silyl-containing and non-silyl-containing polyurethane networks, where the silicon atoms of the silyl-containing polyurethanes are highlighted in red and the blue expansion boxes show a close-up of network aliphatic chains and carbamate linkages
- Fig. 5 : Mechanisms of disassembly with fluoride ion for silyl-containing polyurethane 8 and silyl-containing polyurethane 9, and illustration of partially disassembled network 8, where green indicates activated (i.e., cleaved) silyl groups, red indicates non-activated silyl gruops, and aliphatic amine trimers are shown as all black
- Fig. 6 : Time-lapse images of polyurethane 8 immersed in THF and 1.0 MTBAF in THF for five days at room temperature. Polyurethane 8 was unaffected by the THF, yet completely disassembled within five days of exposure in the fluoride salt solution. The networks are outlined in red for visual indciation
- Table 1 : Average Tg of networks after static immersion in solutions at room temperature
- Table 2 : Average Tg of networks after static immersion in solutions of acetone and PM acetate |
| En ligne : |
https://drive.google.com/file/d/1_QRMW7CVrk_cwMUcC3GPnL36BC0rOEuQ/view?usp=share [...] |
| Format de la ressource électronique : |
Pdf |
| Permalink : |
https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=33601 |
in COATINGS TECH > Vol. 17, N° 1 (01/2020) . - p. 26-32
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