Studies on Yarn Hairiness of Polyester/Cotton Blended Ring-Spun Yarns Made from Different Blend Ratios

Canoğlu, Suat; Tanir, S. Kevser

doi:10.1177/0040517508093780

Cited by 18 publications

(16 citation statements)

References 4 publications

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“…So it can be said that these all parameters explain the tenacity with the higher R square. Fibre blend ratio influenced yarn tenacity and this result is expected and reported from some other researchers [6,9,11,21]. The most effect size of independent parameters on tenacity is blend type with highest F value.…”

Section: Tensile Strength and Elongation Propertiessupporting

confidence: 84%

“…Blending of different kinds of fibres is widely used to reveal new alternative functional products and to improve the performance and the aesthetic qualities of yarns and fabrics [2]. Approximation of physical and mechanical properties of blended yarns has also been studied by various researchers [3][4][5][6][7][8]. There are various regenerated cellulosic fibre alternatives to enhance the performance of yarn and fabrics.…”

Section: Introductionmentioning

confidence: 99%

“…Bamboo can be spun alone or with the blend of other fibres such as rayon, cotton, wool, silk, modal, etc. with regard to the required quality of the products [3][4][5][6][7]. Bamboo fibre contributes the tenacity, thermal conductivity, resistivity to bacteria and high water and perspiration adsorption of textile products [17].…”

Section: Introductionmentioning

confidence: 99%

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Quality optimization of ring spun yarns produced from blends of regenerated cellulosic fibres with cotton and polyester

Sarioğlu¹

2019

Ind. Tex.

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Optimizarea calității firelor filate cu inele produse din fibre celulozice regenerate în amestec cu fibre de bumbac și de poliester Fibrele celulozice regenerate sunt utilizate în principal în amestecurile de bumbac și poliester cu diferite proporții, pe diferite sisteme de filare, pentru a satisface cerințele specifice ale consumatorilor din industria textilă. Acest studiu realizează o analiză a proprietăților și optimizarea calității firelor filate cu inele, cu fineţea de 19,7 tex, din fibre celulozice regenerate Viloft®, ProModal® și bambus în amestec cu fibre de poliester și de bumbac în proporție diferită (100%, 67-33%, 50-50%, 33-67%). Proprietățile firelor, cum ar fi rezistența la tracțiune și alungirea, neuniformitatea, imperfecțiunile și pilozitatea au fost evaluate și comparate pentru a determina influenţa tipului de amestec, tipului de fibră și raportului de amestec. Mai mult, metoda de optimizare numerică a fost dezvoltată pentru a estima parametrii optimi ai calității firelor pentru cele mai bune variabile de răspuns ale următoarelor proprietăți: rezistența la tracțiune și alungirea, neuniformitatea, imperfecțiunile și pilozitatea. Cuvinte-cheie: bambus, ProModal®, fir filat cu inele, optimizarea calității, Viloft® Quality optimization of ring spun yarns produced from blends of regenerated cellulosic fibres with cotton and polyester Regenerated cellulosic fibres are mainly used with the blends of cotton and polyester with different proportion on different spinning systems to meet specific consumer demands in textile industry. This study conducts the properties and quality optimization of 19.7 tex ring spun yarns made from Viloft ® , ProModal ® and Bamboo regenerated cellulosic fibres blended with polyester and cotton at different proportion (100%, 67-33%, 50-50%, 33-67%). Yarn properties such as tensile strength and elongation, unevenness, imperfection index and hairiness were evaluated and compared to determine the effects of blend type, fibre type and blend ratio. Furthermore, numerical optimization method was developed to estimate optimum yarn quality parameters for the best response variables of tensile strength and elongation, unevenness, imperfection index and hairiness properties.

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Section: Tensile Strength and Elongation Propertiessupporting

confidence: 84%

Section: Introductionmentioning

confidence: 99%

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Quality optimization of ring spun yarns produced from blends of regenerated cellulosic fibres with cotton and polyester

Sarioğlu¹

2019

Ind. Tex.

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“…R 2 value also reveals that CV% significantly depends upon fiber type from view point of P/C blended yarn. It is due to staple length and unvarying fineness of polyester fiber, which causes more evenness to the yarn in cross-section (Canoglu and Tanir 2009;Celik and Kadoglu 2009;Nawaz et al 1999;Temel & Celik 2010). Yarn imperfections are given in Table 3.…”

Section: Effect Of Blend Ratiomentioning

confidence: 99%

“…As the ratio of polyester in the blend increases, yarn tenacity, liveliness, and elongation increases whereas yarn hairiness diminishes; furthermore, yarn evenness becomes better with increase in polyester content (Celik & Kadoglu 2009;Canoglu and Tanir 2009;Nawaz et al 1999;Temel and Celik 2010). Uster irregularity also depends upon the material; cotton yarn has less U% than that of polyester while the blend lies in between (Balasubramanian and Nerurkar 1974).…”

Section: Introductionmentioning

confidence: 99%

Blended Yarn Analysis: Part I—Influence of Blend Ratio and Break Draft on Mass Variation, Hairiness, and Physical Properties of 15 Tex PES/CO Blended Ring-Spun Yarn

Malik

Tanwari

Syed

et al. 2012

Journal of Natural Fibers

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This study was undertaken to investigate the effect of P/C blend ratio and break draft on yarn quality and physical properties. 15 tex yarn samples were spun from three blend ratios, i.e., P/C 30/70, 50/50, and 70/30 at ring frame with six break drafts (1. 35, 1.38, 1.42, 1.45, 1.49, and 1.53). The results of blend ratio were analyzed through linear regression technique to predict correlation between two variables. Strong correlation observed between blend ratio and yarn quality and physical properties, as the share of polyester increased all yarn characteristics improved. Prominent improvement in yarn mass variation and hairiness was observed when polyester percentage increased from 30% to 50% whereas tenacity and elongation improved more remarkably when polyester share increased to 70% from 50%. Most of the yarn characteristics were found optimum at break draft 1.49.

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Evaluation of Warp Knitting and Mechanical Damage of Staple Fiber Composite Yarn

Hao,

Wan

2023

Fibers Polym

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Studies on Yarn Hairiness of Polyester/Cotton Blended Ring-Spun Yarns Made from Different Blend Ratios

Cited by 18 publications

References 4 publications

Quality optimization of ring spun yarns produced from blends of regenerated cellulosic fibres with cotton and polyester

Quality optimization of ring spun yarns produced from blends of regenerated cellulosic fibres with cotton and polyester

Blended Yarn Analysis: Part I—Influence of Blend Ratio and Break Draft on Mass Variation, Hairiness, and Physical Properties of 15 Tex PES/CO Blended Ring-Spun Yarn

Evaluation of Warp Knitting and Mechanical Damage of Staple Fiber Composite Yarn

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