Theoretical Prediction on Tensile Model of Wool/Spandex Core-spun Yarn

Dang, Min; Wang, Shanyuan; Liu, Guanjun

doi:10.1177/1528083707083792

Journal of Industrial Textiles

2008

DOI: 10.1177/1528083707083792

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Theoretical Prediction on Tensile Model of Wool/Spandex Core-spun Yarn

Min Dang

Shanyuan Wang

Guanjun Liu³

Abstract: With the innovation of spinning method and Lycra® fiber, wool elastic core-spun yarn is applied for more industrial end-uses, which make it meaningful to study the mechanical property of wool/spandex core-spun yarn. Tensile property of staple yarns has been studied by many researchers. However, no research is reported on the tensile property of elastic core-spun yarn. In this paper, a new approach is introduced to calculate and predict tensile property of a wool/ spandex core-spun yarn. The theoretical model i… Show more

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Cited by 5 publications

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“…Tang et al 16 developed a mathematical model of yarn ballooning motion in ring spinning and conducted experiments to verify the numerical results obtained by a theoretical model. Many ring spinning technologies have been improved with the increasing demands on new features and the quality and output of ring spinning, such as sirofil, 17,18 Fujisawa, core-spinning, 19,20 Nu-Torque, [21][22][23] etc. Therefore, it is of great significance to establish a ballooning yarn model with axial conveying speed to predict the balloon shape and yarn tension in ring spinning.…”

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An improved dynamic model and numerical simulation of yarn in the ring spinning system

Liu

Feng

et al. 2022

Textile Research Journal

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The nonlinear dynamic behavior of ballooning yarn in the ring spinning system is investigated. An improved dynamic model of ballooning yarn with axial conveying speed is established. Based on Hamilton’s law of variation principle, the three-dimensional dynamic differential equations are derived. Then, the shooting method is employed to solve the two-point boundary value problem of ordinary differential equations. The numerical results of balloon profiles and distribution tension curves of ballooning yarns are discussed. The numerical results imply that with the increase of Ω, the yarn conveying speed increases, the minimum tension at the guide eye increases, and the helical loops of the balloon profile decrease. It is also found that as Ω increases, the spatial area of the guide eye tension [Formula: see text] that forms the dynamic balloon decreases. When the yarn conveying speed is medium or high, under different tensions at the guide eye, the yarn tensions along the height direction of the balloon change in the same trend, and the tensions of the ballooning yarn at the same height are very close. In addition, with the increase of Ω, the distribution tension of the ballooning yarn changes significantly under the same guide eye tension.

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An improved dynamic model and numerical simulation of yarn in the ring spinning system

Liu

Feng

et al. 2022

Textile Research Journal

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Application of data mining technique in predicting worsted spun yarn quality

Mozafary¹,

Payvandy²

2013

The Journal of The Textile Institute

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Tensile behavior of staple fiber yarns, part IV: experimental verification of predicted stress–strain curves

Zubair

Neckář

Eldeeb

et al. 2016

The Journal of The Textile Institute

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Theoretical Prediction on Tensile Model of Wool/Spandex Core-spun Yarn

Cited by 5 publications

References 7 publications

An improved dynamic model and numerical simulation of yarn in the ring spinning system

An improved dynamic model and numerical simulation of yarn in the ring spinning system

Application of data mining technique in predicting worsted spun yarn quality

Tensile behavior of staple fiber yarns, part IV: experimental verification of predicted stress–strain curves

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