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Título

Influence of alkaline delignification time on the moisture uptake behaviour of hemp

AutorManich, Albert M. CSIC ORCID CVN; Lis Arias, Manuel J.; Pérez-Rentero, Sonia CSIC ORCID; Riba-Moliner, Marta; Mijas, Gabriela; Martí, Meritxell CSIC ORCID; Cayuela, Diana
Palabras claveHemp
Modelling
Hysteresis
Alkaline delignification
Sorption ratio
Moisture uptake behaviour
Fecha de publicación20-sep-2021
EditorTaylor & Francis
CitaciónThe Journal of The Textile Institute (2021)
ResumenThe influence of the alkaline delignification of hemp on its moisture uptake has been studied under the project “Preparation and functionalization of hemp for textile substrates” focussed on the reduction of cotton imports for the manufacturing of clothing, household textiles and medical devices. The project looks for the partial replacement of cotton by hemp on the production of natural cellulosic textiles. Hemp fibres are alkaline delignified at different times to evaluate its effect on their moisture uptake behaviour to evaluate the ability of replacing cotton in the next-to-skin goods manufacturing. The paper gives three easy tools to analyse the moisture uptake behaviour by determining the sorption ratio, the hysteresis and the parameters of the isotherms fitted using three different models (GAB, Hailwood-Horrobin and Dent) to the absorption desorption isotherms. The samples of the original and delignified hemp have been subjected to moisture absorption/desorption trials from 5% to 95% RH at 25 °C. Sorption ratio and hysteresis reveal the greater influence of lignin on moisture uptake at low relative humidities, while at high, was cellulose which plays the most important role. The models fitted to the isotherms show that delignification decreases the size of the monolayer that, in desorption results always greater than in absorption. The energy constants of the monolayer for delignified fibres in absorption were higher than those for the original fibres, while the opposite occurred in desorption. Lignin caused great differences between absorption and desorption. The energy constants of the multilayer show a greater range of variation in delignified samples than in the original one, and results in absorption were higher than those in desorption. Delignification time of 3 h reached the highest cellulose content which best approached to the cellulose content of cotton causing that the moisture uptake behaviour drew near to it, especially at higher relative humidity.
Versión del editorhttps://doi.org/10.1080/00405000.2021.1977498
URIhttp://hdl.handle.net/10261/251633
DOI10.1080/00405000.2021.1977498
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