Three-dimensional stretchable knitted design with transformative properties

This paper proposes the use of digital knitting to fabricate three-dimensional stretchable fabric with transformative properties. The research focus is on the application of the curling effect and the resultant stitch structures. Rib, purl, and links structures, which have alternating face and back...

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Veröffentlicht in:	Textile research journal 2021-05, Vol.91 (9-10), p.1020-1036
Hauptverfasser:	Yan, Yishu, Jiang, Shouxiang, Zhou, Jinyun
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Sprache:	eng
Schlagworte:	Dimensional changes Knitting Stretchability Surface layers Tensile properties Texture
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creator	Yan, Yishu Jiang, Shouxiang Zhou, Jinyun
description	This paper proposes the use of digital knitting to fabricate three-dimensional stretchable fabric with transformative properties. The research focus is on the application of the curling effect and the resultant stitch structures. Rib, purl, and links structures, which have alternating face and back loops in the structural knit cell and produced the curling effect, are investigated. Thirty-six samples based on the three structures along with 12 different stitch combinations are produced through the digital knitting process. The properties of the samples, including the dimensional changes, surface texture, weight and thickness, and tensile properties, are subsequently evaluated and compared by using both quantitative and qualitative assessment methods. The results show that the developed knitted fabrics that use the curling effect through alternating face and back loops are significantly three-dimensional in surface texture and have considerable stretchability. These effects in general increase with the growth of stitch number in a structural knit cell. However, only the links structures show considerable extensibility along both course and wale directions, while the rib and purl structures have enhanced stretchability in only the course and wale directions, respectively. Therefore, this design-led textile study provides a simple but effective means for producing new materials that offer both function and aesthetics for fashion with transformable designs. The work here also provides a technical-based integrated approach for innovative textile and fashion developments.
doi_str_mv	10.1177/0040517520968281
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The research focus is on the application of the curling effect and the resultant stitch structures. Rib, purl, and links structures, which have alternating face and back loops in the structural knit cell and produced the curling effect, are investigated. Thirty-six samples based on the three structures along with 12 different stitch combinations are produced through the digital knitting process. The properties of the samples, including the dimensional changes, surface texture, weight and thickness, and tensile properties, are subsequently evaluated and compared by using both quantitative and qualitative assessment methods. The results show that the developed knitted fabrics that use the curling effect through alternating face and back loops are significantly three-dimensional in surface texture and have considerable stretchability. These effects in general increase with the growth of stitch number in a structural knit cell. However, only the links structures show considerable extensibility along both course and wale directions, while the rib and purl structures have enhanced stretchability in only the course and wale directions, respectively. Therefore, this design-led textile study provides a simple but effective means for producing new materials that offer both function and aesthetics for fashion with transformable designs. 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The research focus is on the application of the curling effect and the resultant stitch structures. Rib, purl, and links structures, which have alternating face and back loops in the structural knit cell and produced the curling effect, are investigated. Thirty-six samples based on the three structures along with 12 different stitch combinations are produced through the digital knitting process. The properties of the samples, including the dimensional changes, surface texture, weight and thickness, and tensile properties, are subsequently evaluated and compared by using both quantitative and qualitative assessment methods. The results show that the developed knitted fabrics that use the curling effect through alternating face and back loops are significantly three-dimensional in surface texture and have considerable stretchability. These effects in general increase with the growth of stitch number in a structural knit cell. However, only the links structures show considerable extensibility along both course and wale directions, while the rib and purl structures have enhanced stretchability in only the course and wale directions, respectively. Therefore, this design-led textile study provides a simple but effective means for producing new materials that offer both function and aesthetics for fashion with transformable designs. The work here also provides a technical-based integrated approach for innovative textile and fashion developments.</abstract><cop>London, England</cop><pub>SAGE Publications</pub><doi>10.1177/0040517520968281</doi><tpages>17</tpages></addata></record>
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subjects	Dimensional changes Knitting Stretchability Surface layers Tensile properties Texture
title	Three-dimensional stretchable knitted design with transformative properties
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