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Impact of Whip Roller Parameters on Warp Dynamic Loads for 3D Fabrics Made on a Four-Comb Warp-Knitting Machine

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The most advantageous geometry of the warp feeding system was determined from the viewpoint of compensating temporary changes in the warp length during the technological cycle of a four-comb warp-knitting machine. Dynamic simulations of the feeding system were carried out for 3 different lengths of the shift of the slider with a guide bar – designating variants (series) of the cross-sectional sizes of the 3D knitted fabrics. The courses of instantaneous warp tensions during the operating cycle of the warp-knitting machine were presented. Limit dynamic loads of the warp were determined and presented as a function of natural frequency of the whip roller. Based on the criterion of the smallest dynamic loads of the warp, the optimum natural frequencies of the whip roller were determined. In the analyzed range of the whip roller parameters, they are 3–6 times greater than the operation frequency of the warp-knitting machine.
Rocznik
Strony
73--77
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
  • Department of Knitting Technology, Lodz University of Technology, 116 Żeromskiego Street, 90-924 Łódź, Poland
  • Department of Vehicles and Fundamentals of machine Design, Lodz University of Technology, 1-15 Stefanowskiego Street, 90-924 Łódź, Poland
  • Department of Knitting Technology, Lodz University of Technology, 116 Żeromskiego Street, 90-924 Łódź, Poland
Bibliografia
  • [1] Radaszewska, E., Benda, A., Korycki, R. (2018). Modelling of textile composite adapted for roof structure. Fibres & Textiles in Eastern Europe, 26, 5(131), 99-103, DOI: 10.5604/01.3001.0012.2539.
  • [2] Landesmann, A., Seruti, C. A., Batista, E. (2015). Mechanical properties of glass fiber reinforced polymers members for structural applications. Materials Research. 18(6), 1372-1383, DOI: tttp://dx.doi.org/10.1590/1516-1439.044615.
  • [3] Xiaogang, C. (2015). Advances in 3D Textiles. Woodhead publishing is an imprint of Elsevier 2015, Series in Textiles Number 167.
  • [4] Mikołajczyk, Z. (2009). Modeling of the knitting process with respect to the optimisation of the construction parameters of warp-knitting machines. Fibres & Textiles in Eastern Europe, 17, 2 (73), 76-81.
  • [5] Pieklak, K., Mikołajczyk, Z. (2009). Original concept of a new multicomb warp-knitting machine for manufacturing spatial knitted fabrics. Fibres & Textiles in Eastern Europe, 17, 3 (74), 76-80.
  • [6] Michalak, A., Kuchar, M., Mikołajczyk, Z. (2015). Simulation tests of the feeding system dynamics on the warp knitting machine with four needle combs. Fibres & Textiles in Eastern Europe, 23, 4 (112), 127-133.
  • [7] Michalak, A., Kuchar, M., Mikołajczyk, Z. (2017). Dynamic analysis of a warp-knitting machine with pneumatic drive for producing 3D knitted fabrics. Indian Journal of Fibre & Textile Research, 42, December, 502-505.
  • [8] Mikołajczyk, Z. (2011). Optimisation of the knitting process on warp-knitting machines in the aspect of the feeding zone geometry. Fibres & Textiles in Eastern Europe, 19, 4 (87), 81-88.
  • [9] Čiukas, R., Sadauskas, D. (2008). Control of the stability circular knitting process with passive yarn feeding. Mechanika, 4(72), 77-81.
  • [10] Çelik, Ö., Eren, R. (2014). Mathematical analysis of warp elongation in weaving machines with positive backrest system. Tekstil ve Konfeksiyon, 24(1), 56-64.
  • [11] Mikołajczyk, Z. (2003). Model of the feeding process of anisotropic warp knitted fabrics. Fibres & Textiles in Eastern Europe, 11, 2(41), 58-62.
  • [12] Mikołajczyk, Z. (2011). Optimisation of the knitting process on warp-knitting machines in the aspect of the properties of modified threads and the vibration frequency of the feeding system. Fibres & Textiles in Eastern Europe, 19, 6 (89), 75-79.
  • [13] Pusch, T., Wünsch, I., Offermann, P. (2000). Dynamics of yarn tension on knitting machines. Autex Research Journal, 1, 2, 55-63.
  • [14] Bedez Ute, T. (2016). A comparative study between the dynamic friction characteristics of compact and siro yarns. Tekstil ve Konfeksiyon, 26(1), 55-63.
  • [15] Svetnickienė, V., Čiukas, R. (2009) Investigation of friction properties of yarns from natural fibres. Mechanika, 1(75), 73-77.
  • [16] Zajączkowski, J. (2017). Vibrations of elastically supported masses separated by a textile layer. Fibres & Textiles in Eastern Europe, 25, 1(121), 131-133, DOI: 10.5604/12303666.1227894.
  • [17] Shinde, D., Kimbro, E., Mohan, R., Kelkar, A. (2013). Mechanical properties of woven fiberglass composite interleaved with glass nanofibers. The 19th International Conference on Composite Materials, Montreal, Canada.
  • [18] Kuchar, M. (2016). The impact of the frequency of reed vibrations on improving the conditions in thickening dense technical fabrics. Tekstil ve Konfeksiyon, 26(4), 380-384.
  • [19] Ou, J., Zhu, D., Zhang, H., Huang, I., Yao, Y., Li, G. (2016). Mechanical characterization of the tensile properties of glass fiber and its reinforced polymer (GFRP) composite under varying strain rates and temperatures. Polymers, 8, 196-212, DOI: 10.3390/polym8050196.
  • [20] Iqbal, S., Eldeeb, M., Ahmad, Z., Mazari, A. (2017). Comparative study on viscose yarn and knitted fabric made from open end and rieter airjet spinning system. Tekstil ve Konfeksiyon, 27(3), 234-240. http://dergipark.gov.tr/tekstilvekonfeksiyon/issue/31290/340940.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6f87b322-4fc4-427b-b7d8-214e178814a7
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