Journal
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
Volume 83, Issue -, Pages 403-409Publisher
ELSEVIER
DOI: 10.1016/j.ijbiomac.2015.11.022
Keywords
Lignin; Degree of substitution; Cellulose acetate
Funding
- Technology Development Unit of the University of Concepcion (Chile) [Basal PFB-27, Fondef D10I1222]
- CONICYT, Chile
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Sawdust (SD) and cotton-lignin blends (CLB) were acetylated and the effect of lignin type and content on thermoplastic properties of the acetate produced was studied. The lignin in samples did not significantly affect the degree of acetylation. An increase in acetyl groups of 1-3% was observed in acetylated SD (ASD) unlike acetylated CLB (ACLB). Thermogravimetric analysis showed two thermal degradation zones; one at 190-200 degrees C and the other at 330-370 degrees C. The early degradation in ASD corresponds to galactoglucomannans while that in ACLB corresponds to the low-molecular-weight lignin. The second degradation is due to decomposition of cellulose acetate and high-molecular-weight lignin. DSC analysis showed homogeneous behaviour in ASD with only one glass transition temperature (T-g) at 170-180 degrees C, unlike ACLB that showed two T(g)s at 170-180 degrees C. Sawdust acetylation, taking advantage of its residual lignin, showed higher reactivity and miscibility as compared to the same material produced by adding previously extracted lignin on cotton. (C) 2015 Elsevier B.V. All rights reserved.
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