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Abstrakty
Recently, there is an increasing interest in design of circular weft jacquard because of the pursuit of fashion and comfort. Aiming at the complexity of the computer-aided design method of the existing circular weft-knitted jacquard fabrics, which is not conducive to the rapid design and intelligible for designers, a design method was proposed to transform pattern notation into knitting diagram efficiently, which was based on knitting rules and its creation as a set of jacquard modules. Knitting characteristics of jacquard fabrics were studied as a precondition. On this basis, the design procedures of jacquard modules were analyzed and illustrated by taking tricolor bird's eye backing jacquard as an example. Jacquard modules with various jacquard effects were designed and stored in a jacquard module database. To mathematically describe pattern notation, knitting diagram, and jacquard module, two-dimensional matrixes were established by the method of mathematical modeling, and a corresponding algorithm for the transformation of the pattern to knitting information according to the knitting rules of jacquard modules, which can be applied to ordinary jacquard fabrics was summarized. The project of tricolor circular weft-knitted jacquard with bird's eye in the reverse and four-color air-layer jacquard were taken for instance to verify the models and algorithm. The results obtained show that the approach can efficiently and conveniently realize the designation and machine-knitting of weft-knitted jacquard fabric, which provide a theoretical basis and notation of modeling for the computer-aided design of circular weft-knitted jacquard fabrics.
Czasopismo
Rocznik
Tom
Strony
217--224
Opis fizyczny
Bibliogr. 21 poz.
Twórcy
autor
- Engineering Research Center of Knitting Technology, Ministry of Education, Jiangnan University, Wuxi, Jiangsu 214122, China 86-17858505575
autor
- Engineering Research Center of Knitting Technology, Ministry of Education, Jiangnan University, Wuxi, Jiangsu 214122, China 86-17858505575
autor
- Engineering Research Center of Knitting Technology, Ministry of Education, Jiangnan University, Wuxi, Jiangsu 214122, China 86-17858505575
Bibliografia
- [1] Zharieva-Stoyanova E. I., Bozov S. O. (2010). CAD module for knitting patterns design. IEEE International Conference on Automation Quality & Testing Robotics, 298–304.
- [2] Zhang X., et al. (2018). A 3D virtual Weft-knitting Engineering learning system based on Unreal Engine 4. Computer Applications in Engineering Education, 26, 2223–36.
- [3] Brackenbury, T. (1972). The Geometry of Weft-Knitted Rib Jacquard Fabrics. Journal of the Textile Institute, 63(5), 142–145.
- [4] Kaspar, A., Makatura, L., Matusik, W. (2019). Knitting skeletons: a computer-aided design tool for shaping and patterning of knitted garments.
- [5] Li, J., Chen, Z., Ge, M. (2015). Computer-aided design of luminous fiber embroidered fabric and characterization of afterglow performance. Textile Research Journal, 86(11), 1162–1170.
- [6] Xiong, Y., Miao, X., Zhang, A., Jiang, G. (2016). Computer simulation for warp-knitted brushed fabric with patterned piles. Textile Research Journal, 86(15), 1659–1667.
- [7] Ng FM., Zhou J. (2006). Digital jacquard textile design in a colorless mode. Research Journal of Textile and Apparel, 10(2), 36–42.
- [8] Ng M.C.F., Zhou J. (2009). Innovative layered-combination mode for digital jacquard fabric design. Textile Research Journal, 79(8), 737–743.
- [9] Shi, G. F., Zhang, S. L. (2011). Design of pattern preparation system of computerized flat knitting machine based on delphi. Advanced Materials Research, 332–334, 1395–1399.
- [10] Jiang, G., Lu, Z., Cong, H., Zhang, A., Dong, Z. (2017). Flat knitting loop deformation simulation based on interlacing point model. Autex Research Journal, 17(4), 361–369.
- [11] Lu, Z., Jiang, G. (2017). Rapid simulation of flat knitting loops based on the yarn texture and loop geometrical model. Autex Research Journal, 17(2), 103–110.
- [12] Lu Z., Jiang G., Cong H., Yang X. (2016). The Development of the Flat-Knitted Shaped Uppers based on Ergonomics. Autex Research Journal, 16, 67–74.
- [13] Zaharieva-Stoyanova E. (2009). Project of CAD Module for Knitting Pattern Design. IASK International Conference E-Activity and Leaning Technologies&InterTIC, 22–24.
- [14] Wang W., Jiang G., Gao Z., Tang M. (2018). Computer aided design system model and algorithm of weft knitted jacquard fabrics. Journal of Textile Research, 39(3), 161–166.
- [15] Semnani, D., Hadjianfar, M., Aziminia, H., Sheikhzadeh, M. (2014). Jacquard pattern optimizing in weft knitted fabrics via interactive genetic algorithm. Fashion and Textiles, 1(1), 1–9.
- [16] Lv T.J., Long H.R. (2015). Feature matching of fancy weft knitted stitch based on modified surf algorithm. Textile Research Journal, 85(7), 751–758.
- [17] Wang, J., Yang, B., Huang, B., Jin, Z. (2012). Design and development of polymeric optical fiber jacquard fabric with dynamic pattern display. Textile Research Journal, 82(10), 967–974.
- [18] Abounaim MD., Cherif, C. (2012). Flat-knitted innovative three-dimensional spacer fabrics: a competitive solution for lightweight composite applications. Textile Research Journal, 82(3), 288–298.
- [19] Sha S., Ma P., Chapman LP., Jiang G., Zhang A. (2017). Three-dimensional modeling and simulation of deformation behavior of fancy weft knitted stitch fabric. Textile Research Journal, 87(14), 1742–1751.
- [20] Jin, L., Jiang, G. (2015). Research on the surface of multilayer weft knitted fabrics using computer simulation. International Journal of Clothing ence & Technology, 27(4), 561–572.
- [21] Yukse, C., Kaldor, J.M., James, D.L., Marschner, S. (2012). Stitch meshes for modeling knitted clothing with yarn-level detail. ACM Transactions on Graphics, 31(4CD), 37.1–37.12.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d85380f0-b420-45ac-99c5-370416ec92ab