Abstract
Applications of hemp fibers, as a promising natural material in the textile field, mostly require improved fiber properties. In this paper, the oxidation of hemp fibers with potassium permanganate was applied to reduce the amount of non-cellulosic substances and moisture sorption; to introduce functional groups and increase capillarity; make fibers finer, softer and suitable for application in sport wears. The changes in sorption properties were characterized by capillary rise measurement and the ability of water retention and moisture sorption, while changes in mechanical properties were estimated by determination of tenacity and elongation of modified hemp fibers in comparison to the appropriate characteristic of unmodified fibers. ATR-FTIR, SEM techniques, and zeta potential measurement were used for the characterization of fiber structure, morphological and electrokinetic properties. We obtained a finer fiber with increased capillarity (up to 3.68 times) but reduced moisture sorption (down to 1.5 times) and water retention capacity (down to 2.8 times), with accomplished satisfactory preservation of mechanical properties. Obtained oxidized hemp fibers with attained features present a very suitable material for sportswear production. Additionally, in this paper, an improvement of the capillary rise measurement is given.
Highlights
Oxidized hemp fibers with simultaneously increased capillarity and reduced moisture sorption as suitable textile material for advanced application in sportswear
The deconvoluted FTIR spectra of hemp fibers oxidized with 3 % KMnO4, under different pH values (7, 9 and 11) are shown in Figure S4, in order to show the influence of pH value, while for showing the influence of KMnO4 concentration, the deconvoluted FTIR spectra of samples oxidized with 3% and 6% KMnO4, at pH 9, are shown
The broad peaks in the range 1715-1700 cm-1 indicate the presence of the significant amount of carboxyl groups on the oxidized hemp fiber
Summary
Oxidized hemp fibers with simultaneously increased capillarity and reduced moisture sorption as suitable textile material for advanced application in sportswear. In order to get more insight into the influence of mentioned changes on capillarity of modified hemp fibers, the wettability parameters (D, C and R) are calculated, using equations 2, 4 and 5 (in Supplementary S1), as slops of corresponding graphs (Figure S6).
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