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Focusing on the needle and backing cloth on a tufting machine type DHG801D-200, a finite element model was built using ABAQUS/Explicit software. The tufting processes, in which the individual tufting needles and 1/10 needle modules puncture the polypropylene woven and nonwoven fabrics (hot-air bonded nonwoven and thermo-calender bonded nonwoven), were simulated, respectively. Finally, the needle forces were estimated, and the deformations and stress field distribution of the backing cloth at different times were analysed.
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Tom
Strony
9--17
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- College of Mechanical Engineering, Donghua University, No 2999 North Renmin Road, Songjiang, Shanghai 201620, P.R, China
autor
- School of Mechanical and Automotive Engineering, Shanghai University of Engineering Science, 333 Longteng Road, Songjiang, Shanghai, 201620, P.R. China
autor
- College of Mechanical Engineering, Donghua University, No 2999 North Renmin Road, Songjiang, Shanghai 201620, P.R, China
autor
- College of Mechanical Engineering, Donghua University, No 2999 North Renmin Road, Songjiang, Shanghai 201620, P.R, China
Bibliografia
- 1. Meng, Z., Sun, J. J., Zhou, T. Z., & Gu, S. H. (2008). Research on the Influence that Stop Position of Carpet Tufting Machine to Yarn Tension and the Method of Elimination Stop Mark. Key Engineering Materials, 375-376, 724-728.
- 2. Xue, S. (2003). Machine-made carpet. Beijing: Chemical Industry Press.
- 3. Gotlih, K. (1997). Sewing needle penetration force study. International Journal of Clothing Science & Technology, 9 (3), 241-248.
- 4. Haghighat, E., Etrati, S. M., & Najar, S. S. (2013). Modeling of needle penetration force in denim fabric. International Journal of Clothing Science & Technology, 25(25), 361-379.
- 5. Haghighat, E., Etrati, S. M., Najar, S. S., & Shamsi, M. (2015). Theoretical prediction of the needle penetration force in denim fabric part 1: Yarn tensile extension component. International Journal of Clothing Science & Technology, 27(3), 397-416.
- 6. Carvalho, H., Rocha, A. M., & Monteiro, J. L. (2009). Measurement and analysis of needle penetration forces in industrial high-speed sewing machine. Journal of the Textile Institute, 100(4), 319-329.
- 7. Lomov, S. V. (1998). A predictive model for the penetration force of a woven fabric by a needle. International Journal of Clothing Science & Technology, 10(2), 91-103.
- 8. Mallet, E., & Du, R. (2013). Finite element analysis of sewing process. International Journal of Clothing Science & Technology, 11(11), 19-36.
- 9. Goda I., & Girardot J. (2021). Numerical modeling and analysis of the ballistic impact response of ceramic/composite targets and the influence of cohesive material parameters. International Journal of Damage Mechanics, 30(7):1079-1122.
- 10. Elias A., Laurin F., Kaminski M. & Gornet L.(2017). Experimental and numerical investigations of low energy/velocity impact damage generated in 3D woven composite with polymer matrix. Composite Structures, 159, 228-239.
- 11. Wu Z.Y., Zhang L. C., Ying Z.P., Ke J., & Hu X. D. (2020). Low-velocity Impact performance of hybrid 3D carbon/glass woven orthogonal composite: Experiment and simulation. Composites Part B: Engineering, 196(1): 1-14.
- 12. Haque B. Z., & Gillespie J. W. (2021). Perforation mechanics of UHMWPE soft ballistic sub-laminate and soft ballistic armor pack: A finite element study. Journal of thermoplastic composite materials, 1-29 (online).
- 13. Zhang R., Qiang L. S., Han B., Zhao Z.Y., Zhang Q. C., Ni C. Y., & Lu T. J. (2020). Ballistic performance of uhmwpe laminated plates and uhmwpe encapsulated aluminum structures: numerical simulation. Composite Structures, 252: 112686.
- 14. Yiping Shi, Y. Z. (2006). Finite element analysis of detailed examples using ABAQUS. Beijing: Mechanical Engineering Press.
- 15. Wang, P., Ma, Q., & Sun, B. (2011). Finite element modelling of woven fabric tearing damage. Textile Research Journal, 81(12):1273-1286.
- 16. Masoumeh V., Stepan L., & Sayed A.(2010). Finite element modeling of a yarn pullout test for plain woven fabrics. Textile Research Journal, 80(10):892-903.
- 17. Ding, C. H., Zhang, S. P., & Sun, Y. Z. (2006). Kinematical analysis of the needle’s driving mechanism within a carpet tufting machine. Journal of Textile Research, 27(5), 37-40.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6dbac601-7e49-4305-ae75-70356ea63891