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Căutarea după subiecte similare conform CZU |
7.025.3:008 (1) |
Tehnica artei. Măiestrie în artă (38) |
Civilizație. Cultură. Progres (818) |
SM ISO690:2012 CIUBOTARU, Bianca-Iulia, TUGUI, Codrin, CAZACU, Maria, VORNICU, Nicoleta, ZALTARIOV, Mirela-Fernanda. Silicone materials-from cultural heritage conservation to biomedical applications. In: Patrimoniul cultural de ieri – implicaţii în dezvoltarea societăţii durabile de mâine, Ed. 5, 22 februarie 2022, Chişinău. Iași – Chișinău: 2022, Ediția 5, pp. 36-37. ISSN 2558 – 894X. |
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Patrimoniul cultural de ieri – implicaţii în dezvoltarea societăţii durabile de mâine Ediția 5, 2022 |
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Conferința "Patrimoniul cultural de ieri – implicaţii în dezvoltarea societăţii durabile de mâine" 5, Chişinău, Moldova, 22 februarie 2022 | |
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CZU: 7.025.3:008 | |
Pag. 36-37 | |
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Rezumat | |
The utilization of polymeric materials in conservation of cultural her-itage is associated with their ability to prevent the effects of natural deteri-oration, a worrying issue in the face of climate changes. To address this approach, different protective coatings and consolidants based on polymers and polymer composites have been applied, which in addition to hydropho-bicity (water being the main cause of deterioration) must have durability (a suitable resistance to photooxidtive processes) and, most importantly, transparency. To date, superhydrophobic materials with antimicrobial prop-erties, emulsions based on biodegradable polymers, inorganic mixtures The utilization of polymeric materials in conservation of cultural her-itage is associated with their ability to prevent the effects of natural deteri-oration, a worrying issue in the face of climate changes. To address this approach, different protective coatings and consolidants based on polymers and polymer composites have been applied, which in addition to hydropho-bicity (water being the main cause of deterioration) must have durability (a suitable resistance to photooxidtive processes) and, most importantly, transparency. To date, superhydrophobic materials with antimicrobial prop-erties, emulsions based on biodegradable polymers, inorganic mixtures |
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