Indian Journal of Fibre & Textile Research

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Woven face mask made from CoolMax fibres with three layers


Affiliations
1 Department of Home Sciences Education, Al-Lith College, Umm Al- Qura University, Makkah, Saudi Arabia

In this research, ten fabric samples of CoolMax have been produced for preparing reusable face masks. The first group of five woven fabric samples has been produced with different fabric structures (plain weave 1/1, basket weave in warp direction, basket weave in both directions, satin 8, and twill 3/1) with both warp and weft yarns having 750 twists/m. The other group of five woven fabric samples is produced with the same fabric structures but by using 850 twists/m for warp and weft. The plain weave 1/1 fabric is treated with a water-repellent finish. The fabric properties, such as anti-bacterial, moisture, and air permeability, have been evaluated. It is observed that the fabric samples produced from CoolMax with twill, basket weave, and satin would be suitable for the inner and middle layer of the face mask, as they absorb droplets, and liquids and prevent bacteria, while the treated plain weave 1/1 fabric with water-repellent finish can be used for the outer layer. The woven face mask with three layers has been evaluated by objective and subjective methods, and the results show that the air permeability is 15.8 cm3/cm2/s, which is good in terms of breathability as compared to a disposable face mask, and withstand 25 cycles of washing for anti-bacterial property. The suggested woven face mask with three layers can reduce
the spreading of the infection of COVID-19.

Keywords

CoolMax fibre, Covid-19, Moisture management, Woven face mask
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  • Woven face mask made from CoolMax fibres with three layers

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Authors

Mujallid Rasha Samer Mohammad
Department of Home Sciences Education, Al-Lith College, Umm Al- Qura University, Makkah, Saudi Arabia

Abstract


In this research, ten fabric samples of CoolMax have been produced for preparing reusable face masks. The first group of five woven fabric samples has been produced with different fabric structures (plain weave 1/1, basket weave in warp direction, basket weave in both directions, satin 8, and twill 3/1) with both warp and weft yarns having 750 twists/m. The other group of five woven fabric samples is produced with the same fabric structures but by using 850 twists/m for warp and weft. The plain weave 1/1 fabric is treated with a water-repellent finish. The fabric properties, such as anti-bacterial, moisture, and air permeability, have been evaluated. It is observed that the fabric samples produced from CoolMax with twill, basket weave, and satin would be suitable for the inner and middle layer of the face mask, as they absorb droplets, and liquids and prevent bacteria, while the treated plain weave 1/1 fabric with water-repellent finish can be used for the outer layer. The woven face mask with three layers has been evaluated by objective and subjective methods, and the results show that the air permeability is 15.8 cm3/cm2/s, which is good in terms of breathability as compared to a disposable face mask, and withstand 25 cycles of washing for anti-bacterial property. The suggested woven face mask with three layers can reduce
the spreading of the infection of COVID-19.

Keywords


CoolMax fibre, Covid-19, Moisture management, Woven face mask