Effect of an Eco-friendly Treatment on wetting resistance of Knitted Cellulosic Fabrics

Salman, Doaa; Abd El-Aziz, Manar

doi:10.21608/ejchem.2023.225457.8316

Egypt. J. Chem.

2023

DOI: 10.21608/ejchem.2023.225457.8316

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Effect of an Eco-friendly Treatment on wetting resistance of Knitted Cellulosic Fabrics

Doaa Salman,

Manar Abd El-Aziz

Abstract: Cellulosic fabrics are known for comfortability, absorption, softness, and sustainability, which give them an advantage over synthetic fibres. But these fabrics are easily wetted by water due to hydroxyl groups in cellulose molecules. This feature is undesirable in rainwear, self-cleaning coatings, and bandages that require water repellence. The purpose of this study is to develop the water-repellence of cellulosic fabrics without affecting their breathability. In this study; three cellulosic fabrics (Tencel, … Show more

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2024

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Cited by 2 publications

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Effect of abrasion level on surface handling and thermal conductivity of blended suit fabrics

El-Aziz,

Mohamed,

Mustafa

2024

The Journal of The Textile Institute

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Effect of abrasion level on surface handling and thermal conductivity of blended suit fabrics

El-Aziz,

Mohamed,

Mustafa

2024

The Journal of The Textile Institute

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Acoustic and thermal performance of home furnishings made of blended cotton-jute fabrics

Mustafa,

Mohamed,

Hashima

et al. 2024

Journal of Industrial Textiles

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This paper aims to examine the performance of home furnishing applications such as curtains, floor coverings, blankets or pillows to be air permeable, thermal insulators or sound absorbing materials. Two types of fillers, banana fibers and mini Styrofoam balls, were used in different proportions. Plain 1/1, twill 2/2, and sateen four weave structures made of jute-cotton fabrics were implemented by 12 and 16 picks per inch. The KES-F7 Thermo Labo apparatus was used to test the thermal conductivity of fabrics, SDL ATLAS M021 A tester was used to test air permeability, and the sound absorption coefficient (SAC) was measured using the impedance tube. The effect of different number of fabric layers (1, 2 or 3), different types of fillers between two layers of fabric and an air gap between the back plate and fabric samples during the sound absorption test was investigated. Along with two sewing techniques, lockstitch and 3-thread overlock stitch, two layers of optimal sound absorbing samples were joined together to examine the effect of different fillers on fabric properties. Radar chart, ANOVA analysis and coefficient of correlation were used as statistical tools to analyse the results. It was found that the lockstitch demonstrated better sewing performance compared to 3-thread overlock stitch. For triple-layered fabric with a twill structure, increasing the air gap between the back plate of the impedance tube and the fabric sample shifted the resonance frequency from 1600 Hz (SAC 0.97) to 1000 Hz (SAC 0.97). When using banana fibers with sateen structure, the resonance frequency remained at 6300 Hz but with an improved of SAC 0.96 compared to SAC 0.93. On the other hand, combining Styrofoam balls and banana fibres as fillers with a twill structure shifted the resonance frequency from 6300 Hz (SAC 0.93) to 4000 Hz (SAC 0.93).

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Effect of an Eco-friendly Treatment on wetting resistance of Knitted Cellulosic Fabrics

Cited by 2 publications

References 21 publications

Effect of abrasion level on surface handling and thermal conductivity of blended suit fabrics

Effect of abrasion level on surface handling and thermal conductivity of blended suit fabrics

Acoustic and thermal performance of home furnishings made of blended cotton-jute fabrics

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