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    Digital Interlooping: 3D printing of weft-knitted textile-based tubular structures using selective laser sintering of nylon powder.

    Beecroft, Mark ORCID logoORCID: https://orcid.org/0000-0002-8732-7086 (2019) Digital Interlooping: 3D printing of weft-knitted textile-based tubular structures using selective laser sintering of nylon powder. International Journal of Fashion Design, Technology and Education, 12 (2). pp. 218-224. ISSN 1754-3266

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    Abstract

    3D printing is a form of digital additive manufacture whereby the building up of layers of material creates objects. The selective laser sintering process (SLS) uses a laser beam to sinter powdered material to create objects. This paper discusses the materialisation of 3D printed textile based tubular forms that utilise the primary structures of knit. Both single-face and double-face weft knitted structures at various sizes are tested for their flexibility and extensibility. This paper builds upon previous research into 3D printed textile based structures exploring the use of SLS of Nylon powder to create flexible weft knitted structures. The results show the potential to print flexible, tubular textile based structures at various scale that exhibit the properties of traditional knitted textile structures along with the mechanical properties of the material used to print with. The conclusion highlights the potential future development and application of such pieces within apparel related industries.

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