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Numerical Simulation of the Condensing Effect of Different Suction Slots on Fiber Strands in a Compact Siro Spinning Machine with Lattice Apron

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Compact-siro spun with lattice apron combines compact spinning and siro spinning, and is widely put into practice. In this paper, compact-siro spun models with the parallel shaped slots, oblique parallel shaped slots and V-shaped slots were simulated. Based on the airflow data in the condensing zone, the geometrical model of single fiber is built, and then the trajectory of single fiber can be got. The morphological changes and movement process of fiber strands in the flow field of condensing zone were verified by the comparison experiments of yarn morphology, hairiness, tensile and evenness properties. The results showed that the V-shaped slot achieved the optimal agglomeration effect and yarn performance. The theory analysis gives foundation and explanation for the experiment, and also provides a theoretical basis for optimizing the properties of compact-siro yarn in production practice.
Twórcy
autor
  • School of Textile and Clothing, Jiangnan University, Wuxi, Jiangsu 214122, People’s Republic of China
autor
  • School of Textile and Clothing, Jiangnan University, Wuxi, Jiangsu 214122, People’s Republic of China
autor
  • Jiangsu Sunshine Group Co., Ltd., Jiangyin, Jiangsu 214426, People’s Republic of China
Bibliografia
  • [1] Xie C.P., Yang L.L., Su X.Z., Feng J. (2007). Analysis of compact effect and yarn structure of compact Siro spinning. Journal of Textile Research, 28(3), 9-12.
  • [2] Cheng K.P.S, Yu C. (2003). A study of compact spun yarns. Textile Research Journal, 73(4), 345-349.
  • [3] Qin Z.J., (2006). The technology of spinning elitist ply yarn. Shandong Textile Science & Technology, (1), 7-10.
  • [4] Wang W.Y., Zou Z.Y., Hua Z.H., Zhu Y.D., Cheng L.D. (2009). Simulation and analysis of trajectory of fiber in condensing zone of compact spinning with lattice apron. Journal of Textile Research, 30(10), 48-52.
  • [5] Wang Y.F., Gu P., Gu B.P. (2010). Comparison of properties of yarns spun by compact-siro, siro and compact spinning. Advanced Textile Technology, (6), 1-3.
  • [6] Lu L.F., (2013). Study on the condensing mechanism and key components of compact-siro spun with lattice apron. MD Thesis, Donghua University, China.
  • [7] Liu X.J., Su X.Z., Zhang H. (2016). Effects of lattice apron density on yarn qualities in Four-line compact spinning system. The Journal of The Textile Institute, 108(4), 511-521.
  • [8] N.T. Akankwasa, Lin H., Wang J. (2017). Evaluation of the dual-feed rotor spinning unit based on airflow dynamics and blended yarn properties. The Journal of The Textile Institute, 108(11), 1985-1996.
  • [9] P. Jungbecker, G. Seide, T. Gries. (2008). Kinematic model for yarn movement in turbulent air flows. Autex Research Journal, 8(4), 94-99.
  • [10] Zou Z.Y., Zhu Y.D., Hua Z.H., Wang Y., Cheng L.D., (2010). Studies of flexible fiber trajectory and its pneumatic condensing mechanism in compact spinning with lattice apron. Textile Research Journal, 80(8), 712-719.
  • [11] Chiba K., Komatsu T. (2007). Numerical simulation for orientation of thin disk particles in a newtonian flow through a l-shape channel. Journal of Textile Engineer, 50(1), 31-35.
  • [12] Wang Y., Hua Z.H., Cheng L.D., Xue W.L. (2009). Influence of processing parameters on quality of fiber compact in condensing zone of compact spinning with lattice apron. Journal of Textile Research, 31(2), 27-32.
  • [13] Han C.C., Wei M.Y., Xue W.L., Cheng L.D. (2015). Numerical simulation and analysis of airflow in the condensing zone of compact-siro spinning. Textile Research Journal, 85(14), 1506-1519.
  • [14] Xue W.L., Wei M.Y., Wang Y., Cheng L.D., Zhang R.Y. (2011). Comparison of flow field distribution and characteristic on different compact spinning systems. Journal of Donghua University (English Edition), 85(14), 326-330.
  • [15] Zou Z.Y., Wang Y., Yu J.Y., Zhu Y.D., Wu J.N., Cheng L.D. (2009). Characterization and analysis of three-dimensional flow field in compact spinning with lattice apron. Journal of Textile Research, 31(6), 24-28.
  • [16] Zhang N., Xue W.L., Cheng L.D. (2012). Simulation and analysis on condensing effect of the different air suction slots of compact spinning with lattice apron. Journal of Donghua University (English Edition), 85(2), 160-163.
  • [17] Zhang N. (2012). Study on the Simulation about Condensing Process and Addition Twist of Compact Spinning with Lattice Apron. MD Thesis, Donghua University, China.
  • [18] Xu S.D., Wang X. (2012). Discussion on two methods evaluation yarn evenness. Cotton Textile Technology, 12, 29-31.
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-09faad02-ec96-4be6-bc5f-f82a9d6ca52d
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