NEGATIVE POISSON’S RATIO BASED ON WEFT KNITTED FABRIC WITH DIFFERENT LOOP LENGTH
Vol. 2 No. 2 (2024), Articles
Vol. 2 No. 2 (2024)

NEGATIVE POISSON’S RATIO BASED ON WEFT KNITTED FABRIC WITH DIFFERENT LOOP LENGTH

Articles
Published 2024-02-01
Nada Osman
Textile Department, Collage of Engineering and Technology of Industries (SUST), Sudan
Ramadan Mohamed
Textile Department, Collage of Engineering and Technology of Industries (SUST), Sudan
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Keywords

Negative Poisson Ratio, Weft Knitted, Loop Length, wale and course)

How to Cite

Nada Osman, & Ramadan Mohamed. (2024). NEGATIVE POISSON’S RATIO BASED ON WEFT KNITTED FABRIC WITH DIFFERENT LOOP LENGTH. "XXI ASRDA INNOVATSION TEXNOLOGIYALAR, FAN VA TAʼLIM TARAQQIYOTIDAGI DOLZARB MUAMMOLAR" Nomli Respublika Ilmiy-Amaliy Konferensiyasi, 2(2), 5–12. Retrieved from https://universalpublishings.com/index.php/itfttdm/article/view/4144
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Abstract

Auxetic textile materials have become a point of developed knitted structures produced using high performance yarns and showing strong auxetic effects. The Negative Poisson Ratio based on Weft knitted fabric have huge potential for applications, especially in personal protection materials like bulletproof vest, and many industries application such as airspace, automobile, and so on. The present work reports auxetic structures using polypropylene filament yarn through weft knitted technology. The polypropylene filament yarn were knitted on a 5-gauge flat knitting machine (Passap Deumatic 80), using a 2-cam system with a pattern based on a (rib knitting) structure on the face and back loops. Three types of different loop length with same structural (fisherman’s rib) are used (LL3, LL4, and LL5).   The effected of different Loop length on negative Poisson's ratio (NPR) was investigated in the wale and courses direction. The results show that all knitted fabrics have the NPR effect,for the both direction (wale and course). It was observed that NPR improved strongly with the increase in loop length of knitted structures.

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References

V. H. Carneiro, J. Meireles, and H. Puga, "Auxetic materials—A review," Materials Science-Poland, vol. 31, pp. 561-571, 2013.

F. Steffens, S. Rana, and R. Fangueiro, "Development of novel auxetic textile structures using high performance fibres," Materials & Design, vol. 106, pp. 81-89, 2016/09/15/ 2016.

Z. Wang and H. Hu, "3D auxetic warp-knitted spacer fabrics," physica status solidi (b), vol. 251,pp. 281-288, 2014.

J. N. Grima, R. Gatt, A. Alderson, and K. Evans, "On the potential of connected stars as auxetic systems," Molecular Simulation, vol. 31,pp. 925-935, 2005.

A. Spadoni, M. Ruzzene, and F. Scarpa, "Global and local linear buckling behavior of a chiral cellular structure," physica status solidi (b), vol. 242,pp. 695-709, 2005.

J. N. Grima, V. Zammit, R. Gatt, A. Alderson, and K. Evans, "Auxetic behaviour from rotating semi-rigid units," physica status solidi (b), vol. 244,pp. 866-882, 2007.

G. W. Milton, "Composite materials with Poisson's ratios close to— 1," Journal of the Mechanics and Physics of Solids, vol. 40, pp. 1105- 1137, 1992.

K. V. Tretiakov and K. W. Wojciechowski, "Poisson's ratio of simple planar ‘isotropic’solids in two dimensions," physica status solidi (b), vol. 244,pp. 1038- 1046, 2007.

K. Alderson, R. Webber, and K. Evans, "Microstructural evolution in the processing of auxetic microporous polymers," physica status solidi (b),vol. 244, pp. 828-841, 2007.

C. He, P. Liu, P. J. McMullan, and A. C. Griffin, "Toward molecular auxetics: Main chain liquid crystalline polymers consisting of laterally attached para-quaterphenyls," physica status solidi (b), vol. 242,pp. 576-584, 2005.

K. Bertoldi, P. M. Reis, S. Willshaw, and T. Mullin, "Negative Poisson's ratio behavior induced by an elastic instability," Adv Mater, vol. 22, pp. 361-6, Jan 19 2010. www.ijeais.org

A. Alderson and K. Alderson, "Expanding materials and applications: exploiting auxetic textiles," Technical textiles international, vol. 14,pp. 29-34, 2005.

A. Alderson and K. E. Evans, "Molecular origin of auxetic behavior in tetrahedral framework silicates," Physical review letters, vol. 89,p. 225503, 2002.

S. C. Ugbolue, Y. K. Kim, S. B. Warner, Q. Fan, C.-L. Yang, and O. Kyzymchuk, "Auxetic fabric structures and related fabrication methods," ed: Google Patents, 2014.

L. H. Yanping, Hu Lam, Jimmy K. C. Su, Liu, "Negative Poisson’s Ratio Weft-knitted Fabrics," Textile Research Journal, vol. 80, pp. 856-863, 2010/06/01 2009.

H. Hu, Z. Wang, and S. Liu, "Development of auxetic fabrics using flat knitting technology," Textile Research Journal, vol. 81,pp. 1493- 1502, 2011.

R. Darja, R. Tatjana, and P.-Č. Alenka, "Auxetic textiles," Acta Chimica Slovenica, vol. 60,pp. 715-723, 2014. [18] J. N. Grima, "Auxetic metamaterials," Strasbourg, France, 2010.

M. Assidi and J.-F. Ganghoffer, "Composites with auxetic inclusions showing both an auxetic behavior and enhancement of their mechanical properties," Composite Structures, vol. 94, pp. 2373-2382, 2012/07/01/ 2012. www.ijeais.org