Olive stone as a renewable source of biopolyols

Matos, M.C.; Barreiro, M.F.; Gandini, Alessandro

http://hdl.handle.net/10198/1494

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Autores

Matos, M.C.

Barreiro, M.F.

Gandini, Alessandro

Resumo(s)

The purpose of this work was to establish the feasibility of converting the olive stone residue by means of both total and partial oxypropylation. In the first case, the oxypropylation reaction conditions are chosen in order to promote extensive grafting, thus assuring a complete “liquefaction” of the material and, in the second case, partial oxypropylation would limit the reaction to the outer shell in view of the preparation of all-“olive stone” composites. This approach involves a straightforward transformation of the olive stone particles outer layer, giving rise to a thermoplastic matrix around its unreacted reinforcing inner structure, as already applied to cellulose and starch. To the best of our knowledge, oxypropylation was never applied to olive-stone.

Palavras-chave

Olive stone Oxypropylation Biopolyols

URI

http://hdl.handle.net/10198/1494

Citação

Matos, M.C.; Barreiro, M.F.: Gandini, A. (2009). Olive stone as a renewable source of biopolyols. In 2nd International Conference on Biodegradable Polymers and Sustainable Composites (BIOPOL-2009). Alicante, Espanha.

Projetos de investigação

OLIVPOL - Polyurethane foams and thermoplastic composites from oxypropylated olive-stones

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Editora

Universidad de Alicante

Coleções

CIMO - Resumos em Proceedings Não Indexados à WoS/Scopus

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