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Effect of Geometry on Performance of Interlacer

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Interlacer is the key part of interlacing technology that is adopted to improve the cohesion between loose multifilaments. Aimed at finding the interlacers with better performance, the present research designed five interlacers that can be classified into round type and cornered type. These five interlacers are different in cross-sectional shapes of yarn channel but are the same in the cross-sectional area. The evaluation of the performance of the interlacer includes the number and the strength of the tangles of the interlaced yarn it produces. Experiments are carried out at various supplied air pressures, yarn speeds and feed ratios. It was found that the interlacer with round cross-sectional shape of yarn channel is capable of producing an interlaced yarn with a large number of tangles and the cornered cross-sectional shape is effective in improving the strength of tangles. Among these five interlacers, the interlacer with an elliptical or an inverse-triangular shape has the best processing performance
Rocznik
Strony
82--88
Opis fizyczny
Bibliogr. 12 poz.
Twórcy
autor
  • Key Laboratory of Eco-textiles, Ministry of Education, Jiangnan University, Jiangsu, China
autor
  • Key Laboratory of Eco-textiles, Ministry of Education, Jiangnan University, Jiangsu, China
autor
  • Key Laboratory of Eco-textiles, Ministry of Education, Jiangnan University, Jiangsu, China
Bibliografia
  • 1. Dernir A. Intermingling/Interlacing-A survey J.. Textile Asia. 1990, 21(9): 114-122.
  • 2. DuPont D N. Compact Interlaced Yarn P.. 1961.5.
  • 3. Iemoto Y, Chono S, Kasamatsu K. Size Effect of Interlacer Part1: Number of Tangles and Yarn Motion J. Journal of the Textile Machinery Society of Japan. 1999, 45(3): 71-77.
  • 4. Miao M, Song M C C. Air Interlaced Yarn Structure and Properties J.. Textile Res. J. 1995, 65(8): 433-440.
  • 5. Iemoto Y, Chono S, Tanaka T. Study on Interlaced Yarn Part 6:Yarn Motion in Interlacer J.. Journal of the Textile Machinery Society of Japan. 1999, 45(2): 44-50.
  • 6. Iemoto Y, Tanoue S, Lu J, et al. Effects of Size of Interlacer on Air Flow in a Yarn Duct. J.. Journal of Textile Engineering. 2009, 55(4): 111-118.
  • 7. Yoshiyuki I, Shuichi T, Jun L U, et al. Effects of Size of Interlacer on Air Flow in a Yarn Duct. J.. Journal of Textile Engineering. 2009, 55(4).
  • 8. Juraeva M, Song D J, Ryu K J. An optimum design study of the yarn-channel shape of the air-interlacing nozzle by analysis of fluid flow J.. Textile Research Journal. 2012, 82(5): 474-483.
  • 9. Murakami K, Tokunaga K. Characteristics of compressible air flow in an interlacer and yarn entanglement J.. Journal of Textile Engineering. 2006: 121-129.
  • 10. Versteeg H K, Acar M. Effect of Geometry on the Performance of Intermingling Nozzles J.. Textile Res. J. 1999, 69(8): 545-551.
  • 11. Murakami K T. Characteristics of Incompressible Air Flow in an Interlacer J.. Journal of Textile Engineering. 2006, 52(2): 73-79.
  • 12. Qiu H, Iemoto Y, Tanoue S. Yarn Motion in Interlacers with Various Cross-sectional Shapes of Yarn Duct J.. Journal of Textile Engineering. 2007, 53(2): 59-67.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dc1e0356-e54c-485c-b836-87c9511c9229
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