Abstract
The surface modification of cotton fiber was successfully carried out by condensation polymerization with 3-glycidoxypropyltriethoxysilane (GPTES) in an ethanol-water medium. The purpose was to enhance the tensile strength and softness properties of the cotton, by introducing a more flexible Si-O bond between the silane coupling agents and the cotton fiber. The moisture absorption of modified cotton fiber is lower than the raw cotton fiber. The swelling behaviour of modified cotton fiber was decreased in the polar solvents, whereas swelling increased in nonpolar solvent. The FTIR spectra showed two additional peaks at 860 cm-1 (Si-OH symmetric stretch) and 1207 cm-1 (Si-O-C bending) respectively as a function of silane absorption by the fiber surface. Scanning electron microscopy (SEM) coupled with X-ray diffraction (XRD) was studied to identify the surface morphology and the structural characteristics of the raw and modified fibers respectively. The absorption of reactive brown 10 and reactive orange 14 by the modified fiber was comparatively higher than untreated cotton fiber. Color fastness of raw and modified fibers to spotting with soap washing, sunlight, acids and alkalis have been studied.
Highlights
Cotton a natural cellulose fiber is reasonably priced renewable, biodegradable and is the most abundant organic raw material in the world
The present study investigates the mechano-chemical properties of cotton fiber functionalized with 3-glycidoxypropyltriethoxysilane
We have presented the results of chemical modification of cotton fibers with silane coupling agents
Summary
Cotton a natural cellulose fiber is reasonably priced renewable, biodegradable and is the most abundant organic raw material in the world. The modification of cotton fiber with silane coupling agent reduces the hydrophilic properties of the fiber. A lot of work has been done on chemical modification, little if any published research work has been found in which cotton fibers have been modified with silane coupling agent.
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