Obtenção de nanofibrilas de celulose de árvores pioneiras amazônicas e processamento de nanobiocompósitos de PHBV/nanofibrilas de celulose de eucalipto no estado fundido
Resumo
This research project aimed to develop high value-added products such as
biodegradable composites reinforced with cellulose nanofibrils (CNF) making use of
Amazonian pioneer plant species, useful in restoration of degraded forest areas.
The initial objective was to obtain CNF from two pioneer species (Ochroma
pyramidale and Spathelia excelsa) using a friction milling process. The oxidation
effect of the bleached fibers mediated by 2,2,6,6-tetramethylpiperidine-1-oxyl
(TEMPO) on the efficiency of the mechanical defibrillation process was studied.
CNF were successfully obtained and the oxidation process favored a higher degree
of defibrillation. The morphology analysis allowed the observation of CNF with
smaller diameter and more dispersed. The final crystalinity index of the oxidized
CNF was decreased, according to X-ray diffraction results, but its thermal stability
was not altered, as observed by thermogravimetry (TG). Another objective of this
study was to develop nanocomposites of a biodegradable poly(hydroxybutyrate-cohydroxyvalerate)
(PHBV) matrix reinforced with eucalyptus CNF through melt
processing. CNF were mixed in aqueous solution in the presence of poly(ethylene
oxide) (PEO), and then were freeze-dried and milled for feeding in a twin-screw
extruder, followed by injection molding. The influence of CNF and PEO on the
crystallinity index and crystallization rate of PHBV, as well as the mechanical,
thermal, dynamic-mechanical, rheological and morphological properties of the
nanocomposites were evaluated. A small increase in mechanical properties in the
presence of CNF was observed, limited by the agglomeration of CNF during the
drying process, even in the presence of PEO. From the thermal analysis, it can be
concluded that the CNF acted as a nucleating agent for PHBV, accelerating its
crystallization. The thermal stability of the PHBV did not change in the presence of
CNF and PEO, as revealed by TG.