Al Belihy, S. (2021). Effect of using softener washing treatment on jeans fabrics. International Design Journal, 11(6), 323-330. doi: 10.21608/idj.2021.205127
Sahar Mohamed Al Belihy. "Effect of using softener washing treatment on jeans fabrics". International Design Journal, 11, 6, 2021, 323-330. doi: 10.21608/idj.2021.205127
Al Belihy, S. (2021). 'Effect of using softener washing treatment on jeans fabrics', International Design Journal, 11(6), pp. 323-330. doi: 10.21608/idj.2021.205127
Al Belihy, S. Effect of using softener washing treatment on jeans fabrics. International Design Journal, 2021; 11(6): 323-330. doi: 10.21608/idj.2021.205127
Effect of using softener washing treatment on jeans fabrics
The Higher Institute of Engineering (Spinning &weaving dept.) Mahalla Kupra. EGYPT
Abstract
The present research work, using different softeners against water and air permeability resistance. In this work, three different concentration for each of silicone & Fatty acid softeners have been synthesized. Air permeability and water permeability are discussed by changing the amount of softener concentration. It was a great effort to figure out the optimal level of the softener that would be breathable permeability. The results show that if the amount of softener is increased, the permeability of the woven fabric decreases, which affects the different properties of the garment. Comfort and attractiveness are the two most essential requirements in textile manufacturing. Various types of finishing are applied to the fabric to achieve these desirable properties. Among these, silicone wash and fatty acids are the preferred methods of increasing the softness of the fabric. Softeners make the fabric soft, brilliant, greasy, brighter, and slippery and make it more elastic to produce a desirable handle.
[5]. Broadbent, A. D. in Basic Principle of Textile Coloration; Society of Dyers and Colourists (PO Box 244, Perkin House, 82 Grattan Road, Bradford, West Yorkshire BD12JB, England), 2001, 561-564
[6] Xiao, L.; Junyan, H.; Yi, L.; Quanhai, L.; Xinxing, W. Journal of Fiber
Bioengineering & Informatics 2011, 105–114.
[7] Bhuvana; D. G.; Raghunathan, S. AUTEX Research Journal 2006, (4), 216-221.
[8]. Das, A.; Kothari, V. K; Vandana, N. AUTEX Research Journal 2005, 5. (3), 133–140.
[9]. Choudhury, Roy. A. K.; Chatterjee, B.; Saha, S.; Shaw, K. Journal of Textile Institute 2012, 103 (9), 1-9.
[10]. Chattopadhyay, D. P.; Vyas D. D. Indian Journal of Fiber and Textile Research 2010, 35, 68–71.
[11] Parveenzadeh, M.; Hajiraissi, R. Tenside Surfactants Detergents 2008, 45 (5), 254-257.
[12]. Igarashi, T.; Nakamura, K. Journal of Materials Science Research 2019, 8 (1), 35–42.
Assessment of fabric smoothness, 2002 45th Midwest Symposium on
Circuits and Systems, IEEE, Tulsa, Oklahoma, USA, Vol 2, 2002.
[14]. Bereck A, Riegel D, Matzat A, Habereder P, Lautenschlager H (2001) Silicone on fibrous substrates: their mode of action. AATCC Rev 1:45–49
[15]. Schindler WD, Hauser PJ (2004) Chemical finishing of textiles. Elsevier
[16]. Zanmin W (2001) Super-soft finish on cotton fabric. Dyeing Finish 2:010
[17]. Suchada T, Pratik K, Siriviriyanun A, O’Rear EA, Nantaya Y (2011) Silicon-compound coating for preparation of water repellent cotton fabric by admicellar polymerization. Colloids Surf A 384:381–387
[18]. Celik N, Degirmenci Z, Kaynak HK (2010) Effect of nano-silicone softener on abrasion and pilling resistance and colorfastness of knitted fabrics. Textile Konfeksiyon 01:41–47
[19]. Chaudhury AKR, Chatterjee B, Saha S, Shaw K (2012) Comparison of performances of macro, micro and nano silicone softeners. J Text I 103:1012–1023
[20]. Holmes I (2007) Innovative technologies for high-performance textiles. Color Techno l 123:59–73.
[21] Javadi, M.S.; Mokhtari, J.; Nouri, M.; Mazaheri, F. Fibers and Polymers, 14(6) (2013) 920.
[22] Moyinul I, Md., Huiyu J. (2015) Synthesis of Silicone oil and Application on Knit and Woven Cotton Dyed Fabrics. International Journal of Scientific & Engineering Research, Volume 6, Issue 12, 2015 ISSN 2229-5518.
[23] Schindler WD, Hauser PJ (2004) “Chemical finishing of textiles”, Woodhead Publishing Ltd.; p – 23.
[24] Tomasino C (2000) “Chemistry & Technology of Fabric”, Published North Carolin State University, p-134-158.
[25]. Begum A. (2012) Effect of macro, micro and nano silicone emulsion softeners on physical and colorimetric properties of cotton fabric. Inst. Engg. Tech. 2(2):34-42.
[26]. Chowdhury. K P. (2018) Effect of Special Finishes on the Functional Properties of Cotton Fabrics. Journal of Textile Science and Technology, 4, 49-66.
[27] Özgüney, A.T., Özkaya, K., ‘Effects of the Softeners on the Color Change Which Occurs During the Curing Cotton Fabric in Screen Printing Conditions’, Tekstil ve Konfeksiyon, 121-129 (2008).
[28] Pratihar, P., ‘Static and Dynamics Drape of Fabric: An Emerging Arena of Fabric Evaluation’,
International Journal of Engineering Research and Applications, Volume 3, No 5, 1007-
1011(2013).
[29] AATCC TM202-2012, Relative Hand Value of Textiles; AATCC: Research Triangle Park, NC, USA.
[30] International Textile Magagine, Textile Month, http://www.textile-month.com, June 2001.
[31]. Hasani, H.; Behtaz, S. Indian Journal of Fiber and Textile Research 2013, 38, 101.
[32]. AATCC TM202-2012, Relative Hand Value of Textiles; AATCC: Research Triangle Park,
[34] Shenai VA (1995) “Technology of Textile Finishing”, Sevak Publication, p1-3 Clariant literature (Dyes & Chemicals). Shenai VA (1995) Technology of Bleaching & Mercerizing, Sevak Publications, Second edition, p-355.
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