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Bahuguna, Archana
- Quality Characteristics of Plasma Treated Polyester Fabric
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Authors
Affiliations
1 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, Dharwad (Karnataka), IN
1 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, Dharwad (Karnataka), IN
Source
Asian Journal of Home Science, Vol 12, No 2 (2017), Pagination: 328-333Abstract
Polyester is the hydrophobic synthetic fibre which lacks surface reactivity thus, leads to accumulation of electrostatic charge and poor fabric comfort. This undesirable property can be overcome through transforming the polyester into hydrophilic by modifying the surface topography. Oxygen plasma is the dry, eco-friendly finishing technique and effective means to alter the surface morphology of fibre in order to induce hydrophilicity in polyester by adding more numbers of polar groups. Surface structure was assessed by SEM (Scanning Electron Microscope) and the wettability studied by wicking action. The changes in structural, performance, durable properties after plasma treatment and on subsequent washes were basically due to etching action of plasma.Keywords
Hydrophilicity, Hydrophobicity, Oxygen Plasma Treatment, Polyester, Surface Topography.References
- Bhat, N.V., Bharati, R.N., Gore, A.V. and Patil, A.J. (2010). Effect of atmospheric pressure air plasma treatment on desizing and wettability of cotton fabrics. Indian J. Fibre Text. Res., 36: 42-46.
- Bhat, N.V., Netravali, A.N., Gore, A.V., Sathianarayanan, M.P., Arolkar, G.A. and Deshmukh, R.R. (2011). Surface modification of cotton fabrics using plasma technology. Text. Res. J., 10(6): 1-13.
- Booth, J.E. (1996). Principle of textile testing. CBS Publishers and Distributers, New Delhi, pp. 255-353.
- Chinnammal, S.K. and Arunkumar, K.V. (2014). Effect of plasma treatment on plain woven cotton fabric. Internat. J. Sci. Res.,15(2): 83-88.
- Chinta, S.K., Landage, S.M. and Sathish, K.M. (2012). Plasma technology and its application in textile wet processing. Internat. J. Engg. Res. Tech., 5(1): 1-18.
- Joshi, A.S., Sharma, U., Bais, S., Joshi, J., Prajapati, R., Kushwah, G. and Prajapat, C. (2015). Application of plasma finishing on cotton fabric. Internat. J. Engg. Res. Appl., 5(4): 01-10.
- Kan, C.W., Lam, Y.L., Yuen, C.W.M. and Chen, K.S. (2011). Using plasma treatment for enhancing conventional flame-retardant finishing of cotton fabric. J. Appl. Polym. Sci., 102(6): 5958-5961.
- Karahan, H.A., Ozdogan, E., Demir, A., Ayhan, H. and Seventekin, N. (2009). Effects of atmospheric pressure plasma treatments on certain properties of cotton fabrics. Fibres Text., 73(2): 19-22.
- Characterization of Post FR Treatedtextile Materials:A Comparative Study
Abstract Views :213 |
PDF Views:0
Authors
Affiliations
1 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, Dharwad (Karnataka), IN
2 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, DHARWAD (KARNATAKA), IN
1 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, Dharwad (Karnataka), IN
2 Department of Textile and Apparel Designing, College of Rural Home Science, University of Agricultural Sciences, DHARWAD (KARNATAKA), IN
Source
Asian Journal of Home Science, Vol 13, No 1 (2018), Pagination: 289-294Abstract
Cotton and polyester fabrics were subjected to Atmospheric Pressure Plasma (APP) followed by Flame Retardant (FR) treatment using dielectric barrier discharge plasma with He-O2 gas mixture by padding mangle; dried and cured on hot air stenter. The main aim of the study was to assess the effect of plasma-FR treatment on fibre topography, structural and functional properties.Surface topography of treated test samples assessed under SEM and revealed about surface erosion of both the fibres through pictorial presentation. Positive enhancement not only in structural properties of FR finished fabrics viz., cloth count, thickness, GSM and dimensional stability but also the flame retardancy of cotton and polyester were noticed. Further, the qualitative improvements induced due to plasma-FR treatment were found to be sustainable on multiple washes. Thus, it is concluded that APP as a pre-treatment increases the fixation of FR agent into the etched fibre surface and induces sustainability of finish at greater levels.Keywords
Cotton, Flame Retardant (FR), Helium-Oxygen Plasma Treatment, Polyester, Surface Topography.References
- Bhat, N.V., Netravali, A.N., Gore, A.V., Sathianarayanan, M.P., Arolkar, G.A. and Deshmukh, R.R. (2011). Surface modification of cotton fabrics using plasma technology. Text. Res. J., 10(6): 1-13.
- Kan, C.W., Lam, Y.L., Yuen, C.W.M. and Chen, K.S. (2011). Using plasma treatment for enhancing conventional flame-retardant finishing of cotton fabric. J. Appl. Polym. Sci., 102(6): 5958-5961.
- Kaplan, S. (2004). Plasma processes for wide fabric, film and non-wovens. Surf. Coatings Tech., 186 : 214-217.
- Lam, Y.L. Kan, C.W. and Yuen, C.W. (2011). Effect of oxygen plasma pretreatment and titanium dioxide overlay coating on flame retardant finished cotton fabrics. Bio-Resources, 6(2): 1454-1474.
- Siriviriyanun, A., O’Rear, E.A. and Yanumet, N. (2008). Self-extinguishing cotton fabric with minimal phosphorus deposition. Cellulose, 15(5): 731-737.
- Sparavigna, A. (2008). Plasma treatment advantages for textiles. ARXIV .org., 6(2): 1-16.
- Wakelyn, P.J., Adair, P.K. and Barker, R.H. (2004). Do open flame ignition resistance treatments for cellulosic and cellulosic blend fabrics also reduce cigarette ignitions. Fire & Materials, 29(1): 15-26.