Flame retardancy and combustion performance of polysaccharide fabrics: A comparison on cotton and calcium alginate fabrics

Flame retardancy and combustion performance of polysaccharide fabrics: A comparison on cotton and calcium alginate fabrics

Cotton and calcium alginate (CA) fibers are both polysaccharide-based fibers, but they possess different flame retardancy. The detailed comparisons on flame retardancy and combustion behavior of polysaccharide fabrics are of interest. In this study, the difference between the fabrics made of these t...

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Bibliographic Details
Published in:Polymer testing Vol. 124; p. 108099
Main Authors: Gao, Ying-Jun, Jin, Wen-Jie, Liu, Shan-Fei, Cheng, Xian-Wei, Guan, Jin-Ping, Yang, Xu-Hong
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2023
Elsevier
Subjects:
Calcium alginate
Combustion performance
Cotton
Flame retardancy
Polysaccharide fiber
Flame retardancy
Dsmax
VFT
Polysaccharide fiber
LOI
HRR
XRD
Cotton
FR
pHRR
MFCT
TG
Calcium alginate
Combustion performance
FTIR
DTG
SEM
CA
TG-FTIR
THR
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Summary:Cotton and calcium alginate (CA) fibers are both polysaccharide-based fibers, but they possess different flame retardancy. The detailed comparisons on flame retardancy and combustion behavior of polysaccharide fabrics are of interest. In this study, the difference between the fabrics made of these two fibers in the combustion process, pyrolysis products and the morphology and chemical structures of char residues were performed by vertical burning, thermal gravimetric analysis, Fourier Transform Infrared Spectrometer (FTIR) and scanning electron microscopy. Compared with cotton fabric, CA fabric had no after-flame when it was burned vertically, and the smoldering time was longer. Especially, the smoke release rate, peak heat release rate and total heat release were much lower versus cotton fabric, indicating that CA fabric had much lower fire hazards than cotton fabric. The results of thermogravimetric analysis coupled with FTIR (TG-FTIR) suggested that CA fabric exhibited a different thermal degradation pathway versus cotton fabric. Under the same quality, CA fabric produced more char residues after combustion, and chrysanthemum-like calcium oxide were generated on the surface of char residues as protective barrier, leading to the enhanced flame retardancy of CA fabric. [Display omitted] •Alginate and cotton fibers have similar polysaccharide structures but different flame retardancy and combustion behavior.•Systematic and in-depth comparative studies are carried out on combustion process/products and fabric structure of polysaccharide-based fabrics.•Calcium alginate produces chrysanthemum-like calcium oxide char structures as protective barrier.•Calcium alginate fabric has significantly decreased fire hazards versus cotton fabric.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2023.108099