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Journal of Natural Fibers Volume 18, 2021 - Issue 7
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Research Article

Finite-element Analysis of Cotton Serrated Ginning State Based on Three-dimensional Braided Modeling

Di Wanga College of Mechanical Engineering, Donghua University, Shanghai, ChinaView further author information
,
Xiaochuan Chena College of Mechanical Engineering, Donghua University, Shanghai, ChinaCorrespondence[email protected]
View further author information
,
Yong Lib College of Mechanical and Electronic Engineering, Tarim University, Aral, Xinjiang, ChinaView further author information
,
Jun Wangc College of Textiles, Donghua University, Shanghai, ChinaView further author information
&
Yiping Qiuc College of Textiles, Donghua University, Shanghai, ChinaView further author information
Pages 954-967 | Published online: 10 Oct 2019

References

  • Chen, L., J. Li, and X. Li. 2002. Analysis of the rules of yarn movement in 3D braiding. Composite Journal 19 (02):71–74.
  • Chen, X., D. Wang, Y. Qiu, J. Wang, Y. Li, and B. Li. 2019. Finite element analysis of cotton ginning state based on ANSYS. Textile Research Journal 89 (11):2142–53. doi:10.1177/0040517518786274.
  • Dong, Q. 2016. Research on key techniques of cotton ginning and lint cleaning. Jinan: Shandong University.
  • Ge, Y. 2017. Computer simulation of serration ginning process. Shanghai: Donghua University.
  • Li, Y., and X. Chen. 2015b. Prediction model of quality index of machine-picked cotton based on BP neural network. Cotton Textile Technology 43 (1):17–20; 56.
  • Li, Y., X. Chen, and J. Wang. 2015a. Prediction model for the quality index of the raw machine-harvesting based on BP neural network. Cotton Textile Technology 43 (1):19–23.
  • Potvin, M. J. 2001. Comparison of time-domain finite element modelling of viscoelastic structures using an efficient fractional Voigt-Kelvin model or prony series. Montreal: Mcgill University.
  • Tang, Z. X., and R. Postle. 2000. Mechanics of three-dimensional braided structures for composite materials-Part I: Fabric structure and fiber volume fraction. Composite Structures 49 (4):450–59. doi:10.1016/S0263-8223(00)00082-9.
  • Tang, Z. X., and R. Postle. 2001. Mechanics of three-dimensional braided structures for composite materials-Part II: Prediction of the elastic moduli. Composite Structures 51 (4):451–57. doi:10.1016/S0263-8223(00)00160-4.
  • Tang, Z. X., and R. Postle. 2002. Mechanics of three-dimensional braided structures for composite materials-Part III: Nonlinear finite element deformation analysis. Composite Structures 55 (3):307–17. doi:10.1016/S0263-8223(01)00155-6.
  • Xia, B. 2011. Finite element analysis of thermal physical properties of three-dimensional braided composites. Chinese Journal of Aeronautics 32 (6):1040–49.
  • Yuan, X., and H. Sun. 2012. Finite element analysis of viscoelastic properties of resin based three-dimensional braided composites. Journal of Applied Mechanics 120 (01):87–92.

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