Efficient Poisson’s Ratio Evaluation of Weft-Knitted Auxetic Metamaterials

Auxetic metamaterials expand transversely when stretched longitudinally or contract transversely when compressed, resulting in a negative Poisson’s ratio (NPR). Auxetic fabrics are 3D textile metamaterials possessing a unique geometry that can generate an auxetic response with respect to tension. In...

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Bibliographic Details
Published in:Textiles (Basel) 2023-09, Vol.3 (3), p.275-286
Main Authors: Luan, Kun, Newman, Zoe, West, Andre, Lee, Kuan-Lin, Rokkam, Srujan
Format: Article
Language:English
Subjects:
auxetic fabric
Deformation
Design
Designers
fabric deformation
metamaterials
Needlework
negative Poisson’s ratio
Textiles
weft knitting
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Summary:Auxetic metamaterials expand transversely when stretched longitudinally or contract transversely when compressed, resulting in a negative Poisson’s ratio (NPR). Auxetic fabrics are 3D textile metamaterials possessing a unique geometry that can generate an auxetic response with respect to tension. In weft-knitted auxetic fabrics, the NPR property is achieved due to the inherent curling effect of the face and back stitches of the knit loops; they contract in an organized knitting pattern. The traditional method used to evaluate NPR is to measure the lateral fabric deformation during axial tensile testing on a mechanical testing machine, which is time-consuming and inaccurate in measuring uneven deformations. In this study, an efficient method was developed to evaluate the NPR of weft-knitted fabric that can also estimate deformation directionality. The elasticity and extension properties of the weft-knitted fabric can be analyzed immediately following removal from the knitting bed. Five fabrics, all with the same stitch densities (including four auxetic patterns and one single jersey pattern), were designed and produced to validate the proposed method. The use of our estimation method to evaluate the Poisson’s ratio of such fabrics showed higher values compared with the traditional method. In conclusion, the deformation directionality, elasticity, and extensionality were examined. It is anticipated that the proposed method could assist in the innovative development and deployment of auxetic knitted metamaterials.
ISSN:2673-7248
2673-7248
DOI:10.3390/textiles3030018