Study on negative Poisson’s ratio of auxetic yarn under tension: Part 2 – Experimental verification

Du, Zhaoqun; Zhou, Ming; He, Linge; Liu, Hongling

doi:10.1177/0040517514549987

Cited by 37 publications

(70 citation statements)

References 16 publications

(15 reference statements)

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“…It can be seen that DHY, 4‐ply, and 6‐ply auxetic yarns have a significant variation in auxetic behavior under stretching. DHY A‐1‐D has the same kind of Poisson's ratio‐strain curve and similar auxetic characteristics consistent with the references, that is, the Poisson's ratio is positive and increases with increasing tensile strain at the beginning of stretch, then decrease till its maximum negative value and finally increases toward zero until the yarn is broken. It is interesting to note that due to the core‐wrap structure of the DHY, the initial elongation is inevitably accompanied with a positive Poisson's ratio.…”

Section: Resultssupporting

confidence: 82%

“…Wright, Sloan and Evans carried out a finite element analysis and an experimental study to investigate the influence of structural and material parameters on the auxetic performance of the DHY . Du et al conducted a theoretical analysis to predict the auxetic performance of the DHY for any given tensile strain and an experimental study afterward to verify the accuracy of the model . Sibal and Rawal also proposed a DHY system to predict the auxetic behavior of the DHY through energy minimization approach .…”

Section: Introductionmentioning

confidence: 99%

“…[21,23] Du et al conducted a theoretical analysis to predict the auxetic performance of the DHY for any given tensile strain and an experimental study afterward to verify the accuracy of the model. [24,25] Sibal and Rawal also proposed a DHY system to predict the auxetic behavior of the DHY through energy minimization approach. [26] Bhattacharya et al investigated the core-indentation effects on the auxetic behavior of the DHY.…”

Section: Introductionmentioning

confidence: 99%

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Tensile and Deformation Behavior of Auxetic Plied Yarns

2017

Physica Status Solidi (b)

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This paper presents an experimental study of tensile and deformation behavior of an auxetic plied yarn structure. The basic configuration of the plied structure formed with two soft yarns and two stiff yarns was firstly introduced. Based on this 4‐ply helix structure, six kinds of yarn samples were made by different combinations of soft yarns, stiff yarns and twist levels. These yarn samples were first tested and the effects of different design parameters were analyzed. Apart from the tensile test, changes in the internal structure of two samples upon stretching were also studied through microscopic examination. Finally, double helix yarn and 6‐ply auxetic yarn were made for a comparative purpose to investigate the effect of helical structure. The study shows that all of the 4‐ply auxetic yarn samples exhibit negative Poisson's ratio (NPR) throughout the entire tensile process, and the magnitude of NPR gets larger with a smaller soft yarn diameter, a higher tensile modulus of stiff yarn and a lower twist level. The study also shows that auxetic behavior inside the 4‐ply structure is generated by the interplay between the soft yarns and stiff yarns and 4‐ply auxetic yarns have the advantages to produce immediate auxetic effect upon stretching.

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Section: Resultssupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Tensile and Deformation Behavior of Auxetic Plied Yarns

2017

Physica Status Solidi (b)

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“…It is believed that a lower initial wrap angle can lead to a larger maximum NPR. [20,21,[24][25][26] In contrast, there may also exist an critical angle for obtaining the largest NPR, below or above which the maximum NPR of HAY will be impeded. [22] With respect to the Poisson's ratio of core and stiff yarns, it is found that the auxetic effect of HAY is increased with the decrease in their Poisson's ratio.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Modeling on the Deformation Behavior of Auxetic Tubular Braid Made from Modified Circular Braiding Technique

Jiang

Chen

2019

Physica Status Solidi (b)

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Herein, a theoretical analysis of auxetic tubular braid (ATB) formed with three types of component yarns having different diameter and modulus is presented. A simple theoretical model is developed for predicting the deformation behavior of this structure under uniaxial extension. With its accuracy first validated by the experimental data, the developed model is further corrected based on the real condition and thus becomes capable to characterize the auxetic behavior of the ATB. During the analysis, it is found that the stiff wrap yarn cannot be fully straightened in real condition and its helical angle decreasing rate is inconsistent during the stretching. Herein, an effective tool for understanding the deformation behavior is provided, which is meaningful for the braid's improved design and applications.

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“…Bhattacharya et al 20 found that the core indentation effect (the wrap fiber embeds into the core fiber) would reduce the auxetic performance of the HAY; therefore, this phenomenon should be eliminated during the manufacturing process. Du et al 21,22 carried out theoretical and experimental studies to investigate the effect of different design parameters on the auxetic performance of HAY. Zhang et al 23 fabricated a novel three-component auxetic structure based on a HAY and they indicated that the coating thickness was identified as a new design parameter for tailoring the auxetic effect.…”

mentioning

confidence: 99%

Large-scale manufacturing of helical auxetic yarns using a novel semi-coextrusion process

Zhang

Ghita

Lin

et al. 2017

Textile Research Journal

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This paper introduces a novel extrusion process for manufacturing helical auxetic yarn (HAY). A range of semi-coextruded HAYs have been manufactured in a cost-effective, consistent and readily usable form. The semi-coextruded HAYs were compared to the conventional spun yarns in terms of tensile properties and auxetic behavior. The results show the presence of the auxetic effect in newly fabricated semi-coextruded HAYs. Similar to the traditional spun HAYs, the new HAYs are sensitive to parameters such as the initial wrap angle, the core/wrap diameter ratio and component moduli. Importantly, a few new manufacturing parameters have been identified for tailoring the auxetic behavior of the semi-coextruded HAYs. The semi-coextruded HAYs are auxetic when an instantaneous true Poisson's ratio analysis method is applied. The semi-coextruded HAYs give a larger maximum negative Poisson's ratio than the conventional HAYs due to the advantages of the pre-formed helical wrap structure.

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Study on negative Poisson’s ratio of auxetic yarn under tension: Part 2 – Experimental verification

Cited by 37 publications

References 16 publications

Tensile and Deformation Behavior of Auxetic Plied Yarns

Tensile and Deformation Behavior of Auxetic Plied Yarns

Theoretical Modeling on the Deformation Behavior of Auxetic Tubular Braid Made from Modified Circular Braiding Technique

Large-scale manufacturing of helical auxetic yarns using a novel semi-coextrusion process

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