Experimental Investigation of Effects of Fabric Thickness, Loop Shape Factor, Fabric Tightness Factor and Aerial Weight on Air Permeability of Pique Cotton Knitted Fabric
Keywords:
Pique, fabric aerial weight, thickness, loop shape factor, tightness factor, air permeability, BBDAbstract
The present study tries to navigate the effects of fabric aerial weight, loop shape factor, tightness factor and thickness on air permeability of pique knitted fabric made with 100% cotton yarn. Samples used for experimentation are purchased from market. For assessing the factor effects statistical analysis is made using Design expert software and for computation (BBD) is followed. 30 experimental runs have been made and for point prediction of the response, a confidence level of 0.95 is used. Thus, a calculated correlation coefficient of 76.37% is found. The analysis proves fabric aerial weight, thickness and fabric tightness factor significantly affects air permeability of pique fabric made with 100% cotton yarn. Thus, the study shows fabric aerial weight, fabric thickness and tightness factor affect air permeability negatively but significantly.
References
G. Bedek, F. Salaün, Z. Martinkovska, E. Devaux, and D. Dupont, "Evaluation of thermal and moisture management properties on knitted fabrics and comparison with a physiological model in warm conditions," Applied ergonomics, Vol. 42, Issue 6, pp. 792-800, 2011. DOI: 10.1016/j.apergo.2011.01.001.
R. Bagherzadeh, M. Gorji, M. Latifi, P. Payvandy, and L. Kong, "Evolution of moisture management behavior of high-wicking 3D warp knitted spacer fabrics," Fibers and polymers, Vol. 13, pp. 529-534, 2012. https://doi.org/10.1007/s12221-012-0529-6.
Özkan ET, Meriç B. "Thermophysiological comfort properties of different knitted fabrics used in cycling clothes," Textile Research Journal, Vol. 85, Issue 1, pp. 62-70, 2015. DOI:10.1177/0040517514530033.
E. Onofrei, A. M. Rocha, and A. Catarino, "The influence of knitted fabrics’ structure on the thermal and moisture management properties," Journal of Engineered Fibers and Fabrics, Vol. 6, Issue 4, pp. 10-22, 2011.
Kotb,N.A. et al, “Quality of summer knitted fabrics produced from microfiber / cotton yarns”, Journal of Basic and Applied Scientific Research, vol. 1, Issue 12, pp.3416-3423, 2011.
Saville. B.P., “Physical Testing of textiles”, Woodhead Publishing Ltd., Cambridge, England, pp. 217-219, 2000.
Ogulata, R.T., Mavruz. S., “Investigation of porosity and air permeability values of plain knitted fabrics”, Fibre & Textiles in Eastern Europe, Vol. 18, Issue .5, pp.71-75, 2010.
Ogulata, R.T., Serin M.Mezarcioz, “Optimization of air permeability of knitted fabrics with the Taguchi approach”, The Journal of the Textile Institute, Vol. 102 Issue 5, pp.395-404, 2011.
Terry Brackenbury, ‘Knitted Clothing Technology’, Wiley-Blackwell publisher, Chichester, United Kingdom, pp. 172-175, 1992.
D.B.Ajgaonkar, ‘Knitting technology’, Universal publishing corporation, Mumbai, India, pp. 297-306, 1998.
Athirah Mansor, Suzaini Abdul Ghani, Muhamad Faizul Yahya, “Knitted Fabric Parameters in Relation to Comfort Properties”, American Journal of Materials Science Vol. 6 Issue 6, pp.147-151, 2016. DOI: 10.5923/j.materials.20160606.01
S.S.Bhattacharya and J.R.Ajmeri, “Air Permeability of Knitted fabrics made from Regenerated Cellulosic fibres”, International Journal of Engineering Research and Development, Vol. 10, Issue 7, pp.16-22, 2014.
Seboka, Neway. "Determination of effect of input yarn tension on weight (GSM) of single jersey knitted fabrics using ANOVA model," International Journal of Scientific Research in Multidisciplinary Studies, Vol.7, Issue.11, pp.35-41, 2021.
Seboka, Neway. "Regression model development for showing relation between mechanical yarn stretch (%) in sizing and Warp yarn breakage (cmpx) in looms using ANOVA model." Ethiopian journal of textile and apparel Vol 1, Issue2, pp. 01-09, 2020 .
Seboka Neway. "Statistical analysis of effects of fabric thickness, loop shape factor, fabric tightness factor and aerial weight on water vapor permeability of single jersey polyester knitted fabric", International Journal of Scientific Research in Computer science and Engineering, Vol.9, Issue.6, pp.55-62, 2021.
Seboka Neway. "Studying effects of fabric thickness, loop shape factor, fabric tightness factor and aerial weight on thermal conductivity of plain single jersey cotton knitted fabric using Box Behnken Design", International Journal of Engineering and applied computer science, Vol.4, Issue.1, pp.01-08, 2022.
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