FARKLI YUMUŞATMA FORMÜLASYONLARI KULLANARAK ÇARŞAF ISIL KONFOR ÖZELLİKLERİNİN OPTİMİZASYONU
OPTIMIZATION OF THE THERMAL COMFORT PROPERTIES OF BED LINEN USING DIFFERENT SOFTENING FORMULATIONS
This work aims to assess the optimization of the thermal comfort properties of bed linen using different commercial softeners often used in home textiles finishing. Objectively, we intend to study the effect of different softeners and their concentrations, based on nonionic polyethylene dispersions and a cationic silicone softener micro-emulsion on textile properties. Thermal comfort is related to the sensations of heat or cold, moisture or dryness and influence the performance of textile products used near the skin, such as bed linens. Thus, studies concerning thermal measurements of linen finished samples were carried out using the Alambeta test apparatus. Finally, selected softened samples of bed linen were evaluated by a dry thermal manikin to validate the conclusions. The research showed that thermal related properties are influenced by polyethylene softener. Studies concerning thermal measurements of home textiles with the use of the thermal manikins are quite inexistent
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- 1. Wahle, B.; Falkowski, J., 2002, “Softeners in textile processing. Part I: An overview”, Review of Progress in Coloration and Related Topics, Vol. 32, No. 1, pp. 118-124.
- 2. Chen-Yu, J.; Guo, J.; Kemp-Gatterson, B., 2009, “Effects of Household Fabric Softeners on Thermal Comfort of Cotton and Polyester Fabrics After Repeated Launderings”, Family and Consumer Sciences Research Journal, Vol. 37, No. 4, pp. 535-549.
- 3. ISO 7730, 1995, “Moderate Thermal Environments - Determination of the PMV and PPD Indices and Specification of the Conditions for Thermal Comfort”. ISO
- 4. Abreu, M. J.; Catarino, A.; Cardoso, C.; Martin, E. , 2011, “Effects of Sportswear Design on Thermal Comfort, in 150 Years of Innovation and Research in Textile Science of the 11th World Textile Conference, Mulhouse, France, Autex 2011, pp. 50-55.
- 5. Chattopadhyay, D., Vyas, D., 2010, “Effect of silicon nano-emulsion softener on physical properties of cotton fabric”, Indian Journal of Fibre & Textile Research, Vol. 35, No.1, pp. 68-71.
- 6. Holmér, I., 2004, “Thermal manikin history and applications”, European Journal of Applied Physiology, Vol. 92, No. 6, pp. 614-618.
- 7. Wyon, D.P., 1989 “Use of thermal manikins in environmental ergonomics”, Scandinavian Journal of Work, Environment & Health, Vol. 15, No. 1, pp.84-94.
- 8. Hes, L., Lima, M., 1996, “Effect of Mutual Bonding of Textile Layers on Thermal Insulation and Thermal Contact Properties of Fabric Assemblies”, Textile Research Journal, Vol. 66, pp. 245-250.
- 9. Parthiban, M., Ramesh, K., 2007 “Effect of fabric softener on thermal comfort of cotton and polyester fabrics”, Indian Journal of Fibre & Textile Research, Vol. 32, No. 4, pp. 446-452