Applied research of tensile strength of the paired yarns during the assembly winding process

https://doi.org/10.31295/ijecs.v4n1.1761

Authors

  • Parpiev Doniyor Ph.D., Department of Technology of products of textile industry, Namangan Institute of Engineering and Technology, 160115, Namangan, Uzbekistan
  • Parpiev Khabibulla Associate Professor, Department of Technology of products of textile industry, Namangan Institute of Engineering and Technology, 160115, Namangan, Uzbekistan

Keywords:

linear density, package, roller, spool, strength, tension, winding, yarn

Abstract

The article deals with the practical process of measuring the tensile strength of yarn on wrapping machines, the technological process of adding and wrapping yarns in preparation for twisting, the implementation of these processes, wrapping machines used in textile enterprises for the production of modern twisted yarn. During the experiments, the tension of yarns of several linear densities was tested. Also identified weight loads during the additional wrapping process in the preparation of terry and ground warp yarns for weaving processes.

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References

Abdalla, F. H., Mutasher, S. A., Khalid, Y. A., Sapuan, S. M., Hamouda, A. M. S., Sahari, B. B., & Hamdan, M. M. (2007). Design and fabrication of low cost filament winding machine. Materials & design, 28(1), 234-239. https://doi.org/10.1016/j.matdes.2005.06.015

Ahmadjanovich, K. S., Lolashbayevich, M. S., & Tursunbayevich, Y. A. (2020). Study Of Fiber Movement Outside The Crater Of Pnevmomechanical Spinning Machine. Solid State Technology, 63(6), 3460-3466.

Amirante, R., Del Vescovo, G., & Lippolis, A. (2006). Flow forces analysis of an open center hydraulic directional control valve sliding spool. Energy Conversion and Management, 47(1), 114-131. https://doi.org/10.1016/j.enconman.2005.03.010

Chapman, B. M. (1971). An apparatus for measuring bending and torsional stress-strain-time relations of single fibers. Textile Research Journal, 41(8), 705-707.

Christ, M., Braun, N., Neuffer, J., & Kempa-Liehr, A. W. (2018). Time series feature extraction on basis of scalable hypothesis tests (tsfresh–a python package). Neurocomputing, 307, 72-77. https://doi.org/10.1016/j.neucom.2018.03.067

Demczyk, B. G., Wang, Y. M., Cumings, J., Hetman, M., Han, W., Zettl, A., & Ritchie, R. O. (2002). Direct mechanical measurement of the tensile strength and elastic modulus of multiwalled carbon nanotubes. Materials Science and Engineering: A, 334(1-2), 173-178. https://doi.org/10.1016/S0921-5093(01)01807-X

Kärrholm, M., Nordhammar, G., & Friberg, O. (1955). Penetration of alkaline solutions into wool fibers determined by changes in the rigidity modulus. Textile Research Journal, 25(11), 922-929.

Korabayev, S. A., Matismailov, S. L., & Salohiddinov, J. Z. (2018). Investigation of the impact of the rotation frequency of the discretizing drum on the physical and mechanical properties of. Central Asian Problems of Modern Science and Education, 3(4), 65-69.

Korabayev, Sh.A., Djurayev, D.A., Matismailov, S.L. (2018). Perfection of Designs and Theoretical Bases of Calculating Roller Tubes for Yarning. International Journal of advanced research in Science, Engineering and Technology. 5(12), 7583-7588.

Meliboev U.X., & Parpiev D.X. (2020). Theoretical study of yarn mechanics in spinning machines. Mechanical problems. Tashkent, 3, 128-133.

Meliboev, U. Kh., Parpiev, Kh., Parpiev, D. Kh., & Tozhimirzaev, S. T. (2020). Influence Of Yarn Preparation Technology On The Qualitative Indicators Of Twisted Thread. Universum: Engineering Sciences, (6-2 (75)).

Miller, K., & Chinzei, K. (2002). Mechanical properties of brain tissue in tension. Journal of biomechanics, 35(4), 483-490. https://doi.org/10.1016/S0021-9290(01)00234-2

O'Brien, T. K. (1998). Interlaminar fracture toughness: the long and winding road to standardization. Composites Part B: Engineering, 29(1), 57-62. https://doi.org/10.1016/S1359-8368(97)00013-9

Pan, X., Wang, G., & Lu, Z. (2011). Flow field simulation and a flow model of servo-valve spool valve orifice. Energy Conversion and Management, 52(10), 3249-3256. https://doi.org/10.1016/j.enconman.2011.05.010

Parpiev D.Kh., Meliboev U.Kh. (2020). A device for giving the same tension to single threads when they are folded on reed-winding machines. International scientific and practical Internet conference of young scientists and students "Resource-saving technologies of light, textile and food industries". Ukraine. 35-39.

Parpiev D.X., & Meliboev U.X. (2020). Practical study of the tension of paired yarns in the weaving process. BukhMTI Scientific Journal of Science and Technology Development. Buxoro. (5), 195-202.

Parpiev, D. Kh., & Meliboev, W. Kh. (2020). Experimental study of the tension of twisted threads in the process of spinning. Scientist of the XXI century , (12-1), 17-25.

Parpiyev D., & Meliboyev U. (2020). The effect of the strength of single yarns on the quality of doubling yarns in the process. Scientific and Technical Journal of Namangan institute of engineering and technology. Namangan, 6(3), 228-235.

Saura, S., & Torne, J. (2009). Conefor Sensinode 2.2: a software package for quantifying the importance of habitat patches for landscape connectivity. Environmental modelling & software, 24(1), 135-139. https://doi.org/10.1016/j.envsoft.2008.05.005

Tozhimirzaev, S. T., Meliboev, U. Kh., & Parpiev, Kh. (2020). Investigation of the effect of the speed of the carding release on the quality properties of the yarn. European Journal of Technical and Natural Sciences, (4), 7-14.

Tozhimirzaev, S. T., Parpiev, H., & Parpiev, D. Kh. (2020). Influence of speed modes of the take-up drum on yarn quality. Internauka, (15-1), 95-101.

Tresanchez, M., Palleja, T., Teixidó, M., & Palacín, J. (2010). Measuring yarn diameter using inexpensive optical sensors. Procedia Engineering, 5, 236-239. https://doi.org/10.1016/j.proeng.2010.09.091

Turdialiyevich, T. S., & Khabibulla, P. (2020). The Influence Of Top Flat Speed Of Carding Mashine On The Sliver And Yarn Quality. European Journal of Molecular & Clinical Medicine, 7(7), 789-797.

Vasarhelyi, B., & Ván, P. J. E. G. (2006). Influence of water content on the strength of rock. Engineering Geology, 84(1-2), 70-74. https://doi.org/10.1016/j.enggeo.2005.11.011

Zambrano, M. I., Veliz, E. A. R., Ormaza, G. F., & Laz, G. L. (2017). Comparison between the Material Improvement of the Megarok and San José Quarries, Applying the AASTHO Standards. International Research Journal of Engineering, IT and Scientific Research, 3(5), 50-57.

Published

2021-09-22

How to Cite

Doniyor, P., & Khabibulla, P. (2021). Applied research of tensile strength of the paired yarns during the assembly winding process. International Journal of Engineering and Computer Science, 4(1), 7-18. https://doi.org/10.31295/ijecs.v4n1.1761