Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics

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Zeitschriftentitel:	Autex Research Journal
Personen und Körperschaften:	Basit, Abdul, Latif, Wasif, Ashraf, Munir, Rehman, Abdur, Iqbal, Kashif, Maqsood, Hafiz Shahzad, Jabbar, Abdul, Baig, Sajjad Ahmad
In:	Autex Research Journal, 19, 2019, 1, S. 80-85
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Walter de Gruyter GmbH
Schlagwörter:	General Materials Science

author_facet	Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad
author	Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad
spellingShingle	Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad Autex Research Journal Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics General Materials Science
author_sort	basit, abdul
spelling	Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad 2300-0929 Walter de Gruyter GmbH General Materials Science http://dx.doi.org/10.1515/aut-2018-0035 <jats:title>Abstract</jats:title> <jats:p>The demand of cotton is increasing but its low production rate cannot fulfill the world requirements. The increase in cotton demand has augmented the production of regenerated cellulosic fibers. Furthermore, cotton has proved to be unsustainable because of the use of huge amount of fresh water, pesticides and insecticides. The purpose of this work is to find out the suitable blend/blends of regenerated fibers so as to replace 100% cotton fabrics. Therefore, mechanical and comfort properties of Tencel fabrics blended with other regenerated cellulose fibers have been compared with 100% cotton to achieve the equivalent or even better end properties. Hence, cotton, viscose, Tencel, modal, and bamboo fibers were taken. Plain woven blended fabrics of 100% cotton and 50:50 blends of Tencel with other regenerated fibers were prepared from normal yarn count of 20 tex. The mechanical properties (warp-wise and weft-wise tensile and tear strengths, pilling, and abrasion resistance) and the comfort properties including air permeability, moisture management properties, and thermal resistance were evaluated. It is found that Tencel blended fabrics show better results than 100% cotton fabrics. Therefore, it is concluded that Tencel blended with these regenerated fabrics can be used to replace 100% cotton fabrics.</jats:p> Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics Autex Research Journal
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title	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_unstemmed	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_full	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_fullStr	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_full_unstemmed	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_short	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_sort	comparison of mechanical and thermal comfort properties of tencel blended with regenerated fibers and cotton woven fabrics
topic	General Materials Science
url	http://dx.doi.org/10.1515/aut-2018-0035
publishDate	2019
physical	80-85
description	<jats:title>Abstract</jats:title> <jats:p>The demand of cotton is increasing but its low production rate cannot fulfill the world requirements. The increase in cotton demand has augmented the production of regenerated cellulosic fibers. Furthermore, cotton has proved to be unsustainable because of the use of huge amount of fresh water, pesticides and insecticides. The purpose of this work is to find out the suitable blend/blends of regenerated fibers so as to replace 100% cotton fabrics. Therefore, mechanical and comfort properties of Tencel fabrics blended with other regenerated cellulose fibers have been compared with 100% cotton to achieve the equivalent or even better end properties. Hence, cotton, viscose, Tencel, modal, and bamboo fibers were taken. Plain woven blended fabrics of 100% cotton and 50:50 blends of Tencel with other regenerated fibers were prepared from normal yarn count of 20 tex. The mechanical properties (warp-wise and weft-wise tensile and tear strengths, pilling, and abrasion resistance) and the comfort properties including air permeability, moisture management properties, and thermal resistance were evaluated. It is found that Tencel blended fabrics show better results than 100% cotton fabrics. Therefore, it is concluded that Tencel blended with these regenerated fabrics can be used to replace 100% cotton fabrics.</jats:p>
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author	Basit, Abdul, Latif, Wasif, Ashraf, Munir, Rehman, Abdur, Iqbal, Kashif, Maqsood, Hafiz Shahzad, Jabbar, Abdul, Baig, Sajjad Ahmad
author_facet	Basit, Abdul, Latif, Wasif, Ashraf, Munir, Rehman, Abdur, Iqbal, Kashif, Maqsood, Hafiz Shahzad, Jabbar, Abdul, Baig, Sajjad Ahmad, Basit, Abdul, Latif, Wasif, Ashraf, Munir, Rehman, Abdur, Iqbal, Kashif, Maqsood, Hafiz Shahzad, Jabbar, Abdul, Baig, Sajjad Ahmad
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description	<jats:title>Abstract</jats:title> <jats:p>The demand of cotton is increasing but its low production rate cannot fulfill the world requirements. The increase in cotton demand has augmented the production of regenerated cellulosic fibers. Furthermore, cotton has proved to be unsustainable because of the use of huge amount of fresh water, pesticides and insecticides. The purpose of this work is to find out the suitable blend/blends of regenerated fibers so as to replace 100% cotton fabrics. Therefore, mechanical and comfort properties of Tencel fabrics blended with other regenerated cellulose fibers have been compared with 100% cotton to achieve the equivalent or even better end properties. Hence, cotton, viscose, Tencel, modal, and bamboo fibers were taken. Plain woven blended fabrics of 100% cotton and 50:50 blends of Tencel with other regenerated fibers were prepared from normal yarn count of 20 tex. The mechanical properties (warp-wise and weft-wise tensile and tear strengths, pilling, and abrasion resistance) and the comfort properties including air permeability, moisture management properties, and thermal resistance were evaluated. It is found that Tencel blended fabrics show better results than 100% cotton fabrics. Therefore, it is concluded that Tencel blended with these regenerated fabrics can be used to replace 100% cotton fabrics.</jats:p>
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spelling	Basit, Abdul Latif, Wasif Ashraf, Munir Rehman, Abdur Iqbal, Kashif Maqsood, Hafiz Shahzad Jabbar, Abdul Baig, Sajjad Ahmad 2300-0929 Walter de Gruyter GmbH General Materials Science http://dx.doi.org/10.1515/aut-2018-0035 <jats:title>Abstract</jats:title> <jats:p>The demand of cotton is increasing but its low production rate cannot fulfill the world requirements. The increase in cotton demand has augmented the production of regenerated cellulosic fibers. Furthermore, cotton has proved to be unsustainable because of the use of huge amount of fresh water, pesticides and insecticides. The purpose of this work is to find out the suitable blend/blends of regenerated fibers so as to replace 100% cotton fabrics. Therefore, mechanical and comfort properties of Tencel fabrics blended with other regenerated cellulose fibers have been compared with 100% cotton to achieve the equivalent or even better end properties. Hence, cotton, viscose, Tencel, modal, and bamboo fibers were taken. Plain woven blended fabrics of 100% cotton and 50:50 blends of Tencel with other regenerated fibers were prepared from normal yarn count of 20 tex. The mechanical properties (warp-wise and weft-wise tensile and tear strengths, pilling, and abrasion resistance) and the comfort properties including air permeability, moisture management properties, and thermal resistance were evaluated. It is found that Tencel blended fabrics show better results than 100% cotton fabrics. Therefore, it is concluded that Tencel blended with these regenerated fabrics can be used to replace 100% cotton fabrics.</jats:p> Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics Autex Research Journal
spellingShingle	Basit, Abdul, Latif, Wasif, Ashraf, Munir, Rehman, Abdur, Iqbal, Kashif, Maqsood, Hafiz Shahzad, Jabbar, Abdul, Baig, Sajjad Ahmad, Autex Research Journal, Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics, General Materials Science
title	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_full	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_fullStr	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_full_unstemmed	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_short	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
title_sort	comparison of mechanical and thermal comfort properties of tencel blended with regenerated fibers and cotton woven fabrics
title_unstemmed	Comparison of Mechanical and Thermal Comfort Properties of Tencel Blended with Regenerated Fibers and Cotton Woven Fabrics
topic	General Materials Science
url	http://dx.doi.org/10.1515/aut-2018-0035