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The Journal of The Textile Institute Volume 114, 2023 - Issue 9
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Research Articles

Finite-element analysis on the compression-recovery process of cotton fiber assembly

Fan Wua College of Mechanical Engineering, Donghua University, Shanghai, ChinaView further author information
,
Yong Lib College of Mechanical and Electronic Engineering, Tarim University, Alar, Xinjiang, ChinaView further author information
,
Xiaochuan Chena College of Mechanical Engineering, Donghua University, Shanghai, ChinaCorrespondence[email protected]
View further author information
,
Jun Wangc College of Textiles, Donghua University, Shanghai, ChinaView further author information
,
Zheng Gongd Alar City Zhongtai Textile Technology Co., Ltd, Alar, Xinjiang, ChinaView further author information
&
Hongguang Lid Alar City Zhongtai Textile Technology Co., Ltd, Alar, Xinjiang, ChinaView further author information
Pages 1431-1442 | Received 10 Apr 2021, Accepted 04 Sep 2022, Published online: 13 Oct 2022

References

  • Carnaby, G. A., & Pan, N. (1989). Theory of the compression hysteresis of fibrous assemblies. Textile Research Journal, 59(5), 275–284. https://doi.org/10.1177/004051758905900505
  • Chen, L., Li, J. L., & Li, X. M. (2002). Analysis of the rules of yarn movement in 3D braiding. Composite Journal, 19(02), 71–74.
  • Di, W., Xiaochuan, C., Yong, L., Jun, W., & Yiping, Q. (2021). Finite-element analysis of cotton serrated ginning state based on threedimensional braided modeling. Journal of Natural Fibers, 18(7), 954–967.
  • Dunlop, J. I. (1974). characterizing the compression properties of fibre masses. The Journal of the Textile Institute, 65(10), 532–536. https://doi.org/10.1080/00405007408630141
  • Dunlop, J. I. (1974). Characterizing the compression properties of fibre masses. The Journal of the Textile Institute, 65(10), 532–536. https://doi.org/10.1080/00405007408630141
  • Dunlop, J. I. (1983). On the compression characteristics of fiber masses. The Journal of the Textile Institute, 74(2), 92–97. https://doi.org/10.1080/00405008308631770
  • Hu, W., Chen, X., Wang, J., & Li, Y. (2020). Construction and finite element simulation of the saw type gin stand using fractal theory. Textile Research Journal, 90(23-24), 2755–2768. https://doi.org/10.1177/0040517520929358
  • Hui, J., & Weidong, Y. (2018). Evaluating compressive behavior of general fibrous assemblies. Industria Textila, 69(4), 287–292.
  • Jing, G., Ning, P., & Weidong, Y. (2010). Compression behavior evaluation of single down fiber and down fiber assemblies. The Journal of the Textile Institute, 101(3), 253–260.
  • Kong, L. X., & Platfoot, R. A. (1996). Two-dimensional simulation of air flow in the transfer channel of open-end rotor spinning machines. Textile Research Journal, 66(10), 641–650. https://doi.org/10.1177/004051759606601005
  • Kong, F. R., Zhou, Q. N., & Chen, L. N. (2018). Analysis of cotton fiber assembly performance after compression. Shanghai Textile Science & Technology, 46(3), 7–10.
  • Li, Y., Li, J., Wu, B., Hu, S. M., & Chen, X. C. (2020). Variation of pressure and friction of cotton fiber assembly in sliding process. Advanced Textile Technology, 28(01), 6–10.
  • Li, Y., Noro, J., Li, J., Silva, C., Su, J., & Cavaco-Paulo, A. (2021). Analysis on compressional behavior of cotton fiber assembly and its influencing factors. Journal of Natural Fibers, 1–15. https://doi.org/10.1080/15440478.2021.2002785
  • Li, C., Tao, X. M., & Choy, C. L. (1999). On the microstructure of three-dimensional braided performs. Composites Science and Technology, 59(3), 391–404.
  • Minjun, X., Xiaochuan, C., Jun, W., & Yong, L. (2020). Finite element analysis modeling research on the compression process of cotton fiber assembly. Textile Research Journal, 90(11-12), 1414–1427.
  • Roberts, W. W., & Beil, N. B. (2004). Fibrous assemblies: Modeling/computer simulation of compressional behavior. International Journal of Clothing Science and Technology, 16(1/2), 108–118. https://doi.org/10.1108/09556220410520405
  • Takashi, K., & Kunio, M. (1977). Numbers of fiber-to-fiber contacts in general fiber assemblies. Textile Research Journal, 47(1), 13–17.
  • Takashi, K., & Motoyoshi, I. (1992). A model analysis of the compressibility of fiber assemblies. Textile Research Journal, 62(10), 567–574.
  • Takashi, K., & Motoyoshi, I. (1994). A modified theory of fiber contact in general fiber assemblies. Textile Research Journal, 64(9), 519–528.
  • Van Wyk, C. M. (1946). Note on the compressibility of wool. Journal of the Textile Institute Transactions, 37(12), T285–T292. https://doi.org/10.1080/19447024608659279
  • Xiaochuan, C., Di, W., Yiping, Q., Jun, W., Yong, L., & Bin, L. (2019). Finite element analysis of cotton ginning state based on ANSYS. Textile Research Journal, 89(11), 2142–2153.
  • Yamamoto, S., & Matsuoka, T. (1993). A method for dynamic simulation of rigid and flexible fibers in slow field. The Journal of Chemical Physics, 98(1), 644–650. https://doi.org/10.1063/1.464607
  • Zhang, F. F., & Duan, Y. C. (2019). Preloaded unit cell model and elastic prediction of 2-D triaxial braided composites. Journal of Textile Research, 40(10), 85–91.

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