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Filling natural microtubules with triphenyl phosphate for flame-retarding polymer composites

Composites Part A: Applied Science and Manufacturing • 2018
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Publication Information
Authors Hao Wu, Sherif Araby, Jian Xu, Hsu-Chiang Kuan, Chun-Hui Wang, Adrian Mouritz, Yan Zhuge, Richard J-T Lin, Tony Zong, Jun Ma
Keywords Flame retardant; Epoxy; Kapok microtubules; Triphenyl phosphate; Cellulose acetate
Journal Composites Part A: Applied Science and Manufacturing
Publisher Elsevier
Volume 115
Issue Not Available
Pages 247-254
publication.type International
Paper Link Open Link
Supplementary Materials Not Available
Abstract
Phosphorus flame retardants can provide polymers with flame retardancy, but they often compromise the polymers’ mechanical performance due to plasticization. This problem is addressed in this study by filling and sealing triphenyl phosphate into natural microtubules of ∼100 µm in length, 10–20 µm in diameter and 0.5–1.0 µm in wall thickness. We investigated the sealing mechanisms through morphological observation and X-ray photoelectron spectroscopy. An appropriate mixture of triphenyl phosphate and cellulose acetate at mass ratio of 97:3 created an encapsulation effect which prevented triphenyl phosphate from flowing out of the tubules during curing, which resulted in an encapsulation ratio of 56%. Adding the filled tubules into an epoxy resin showed no obvious compromise on the stiffness and strength of the matrix. The tubules proved effective in increasing char and reducing smoke release during combustion. This self-sealing method may be used in other applications such as self-healing composites.