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INVESTIGATION OF SOME COMFORT PROPERTIES OF FABRICS LAMINATED WITH DIFFERENT TYPES OF MEMBRANES

Year 2011, Volume: 21 Issue: 4, 323 - 327, 30.12.2011

Abstract

The aim of this study is to determine and evaluate some comfort properties of laminated fabrics obtained with different membranes. In
the study, 100% PES woven fabric was laminated using membrane materials as PU (polyurethane), PES (poliester) and PTFE
(polytetrafluoroethylene). Water repellent finishing process was applied to these fabrics and some comfort tests of the fabric were carried out
in two groups. These groups are; Group 1, subjected to lamination after the application of water repellent finishing process; group 2,
subjected to water repellent finishing process after lamination process. The comfort tests included water repellent, air permeability, water
impermeability, and water vapor transmission tests. The obtained results from experimental studies were compared with graphics and thus
interpreted. In conclusion, it could be recommended to apply water repellent processes after lamination, in contrast to traditional method
using water repellent process prior to lamination.

References

  • 1. Fung, W., 2002, Coated and Laminated Textiles, The Textile Institue, Woodhead Publishing Limited, England. 2. Samms, J., 2002, High Moisture Vapor Transmission Thermoplastic Polyurethanes, Noveon, Inc. 3. Jeong, W.Y., An S.K., 2004, ‘Mechanical Properties of Breathable Waterproof Fabrics with Seaming and Sealing Processes’, Fibers and Polymers, Vol:5, No: 4, 316-320. 4. Schmıdt, H., Marcınkowska, D., Cıeslak, M., 2005, ‘Testing Water Vapour Permeability Through Porous Membranes’, Fibres&Textiles in Eastern Europe, Vol:13, No: 2, 66-68. 5. Şahin, B., 2005, Application and Effects of Different Surface Coating Technicals on Fabrics, M.Sc. Thesis, Marmara University, Institute of Pure and Applied Sciences, Istanbul, 142. 6. Armağan, O.G. 2007, Investigation of the Performance of Laminated Fabrics Produced with Different Fiber Types, M.Sc. Thesis, Istanbul Technical University, Graduate School of Science Engineering and Technology, Istanbul, 108. 7. Sivri, Ç., 2008, Investigation of Comfort Characteristics of Breathable Fabrics Laminated by a Membrane, M.Sc. Thesis, Süleyman Demirel University Graduate School of Applied and Natural Sciences, Isparta, 122. 8. Frydrych, I., Sybilska, W., Wajszczyk, M., 2009, ‘Analysis of Selected Physical Properties of Membrane Fabrics Influencing the Utility Comfort of Clothing’, Fibres&Textiles in Eastern Europe , Vol:17, No: 6, 50-55. 9. Bulut, Y., Sülar, V., 2010, ‘General Properties and Performance Tests of Fabrics Produced by Coating and Lamination Techniques’, The Journal of Textiles and Engineer, Vol:15, No: 70-71, 5-16. 10. Bilgi, M., Kalaoğlu, F., 2010, ‘The Effects of Special Finishing Processes on the Performance and Comfort of the Military Garments’, Journal of Textile and Apparel, Vol:20, No: 4, 343-347. 11. Güney, F., Üçgül, İ., 2010, ‘Thermal Insulation Properties of Breathable Membrans Inside of Protecting Clothing’, Journal of Textile and Apparel, Vol:20, No: 1, 9-16. 12. Ergen A., 2010, Investigation of Performance Properties of Appliying Lamination Technics on 100% Poliester Woven Fabrics, M.Sc. Thesis, Çukurova University, Institute of Basic and Applied Sciences, Adana, 83. 13. TS 257 EN 20811, 1996, Textiles Fabrics-Determination of Resistance to Water Penetration-Hydrostatic Pressure Test. 14. TS 259 EN 24920, 2001, Textiles, determination of resistance to surface wetting (spray test) of fabrics. 15. TS 391 EN ISO 9237, 1999, Textiles-Determination of permeability of fabrics to air. 16. ASTM Method E96-00, 2009, Standard Test Method for Water Vapor Transmission of Materials, American Society for Testing and Materials.

FARKLI MEMBRANLARLA LAMİNE EDİLMİŞ KUMAŞLARIN BAZI KONFOR ÖZELLİKLERİNİN İNCELENMESİ

Year 2011, Volume: 21 Issue: 4, 323 - 327, 30.12.2011

Abstract

Bu çalışmanın amacı, farklı membranlarla lamine edilmiş kumaşların bazı konfor özelliklerini belirlemek ve değerlendirmektir.
Çalışmada %100 PES dokuma kumaş, PU, PES ve PTFE membranlarla lamine edilmiştir. Bu kumaşlara su iticilik apresi uygulanmış ve
konfor testleri laminasyon öncesi ve laminasyon sonrası su iticilik apre prosesli olmak üzere iki grupta yürütülmüştür. Hava geçirgenliği, su
iticilik, su geçirmezlik ve su buharı geçirgenliği, kumaşlara uygulanan konfor testleridir. Elde edilen sonuçlar grafiklerle karşılaştırılmış ve
yorumlanmıştır. Neticede, geleneksel yöntemin yerine, laminasyon sonrası su iticilik prosesinin uygulaması tavsiye edilmektir.

References

  • 1. Fung, W., 2002, Coated and Laminated Textiles, The Textile Institue, Woodhead Publishing Limited, England. 2. Samms, J., 2002, High Moisture Vapor Transmission Thermoplastic Polyurethanes, Noveon, Inc. 3. Jeong, W.Y., An S.K., 2004, ‘Mechanical Properties of Breathable Waterproof Fabrics with Seaming and Sealing Processes’, Fibers and Polymers, Vol:5, No: 4, 316-320. 4. Schmıdt, H., Marcınkowska, D., Cıeslak, M., 2005, ‘Testing Water Vapour Permeability Through Porous Membranes’, Fibres&Textiles in Eastern Europe, Vol:13, No: 2, 66-68. 5. Şahin, B., 2005, Application and Effects of Different Surface Coating Technicals on Fabrics, M.Sc. Thesis, Marmara University, Institute of Pure and Applied Sciences, Istanbul, 142. 6. Armağan, O.G. 2007, Investigation of the Performance of Laminated Fabrics Produced with Different Fiber Types, M.Sc. Thesis, Istanbul Technical University, Graduate School of Science Engineering and Technology, Istanbul, 108. 7. Sivri, Ç., 2008, Investigation of Comfort Characteristics of Breathable Fabrics Laminated by a Membrane, M.Sc. Thesis, Süleyman Demirel University Graduate School of Applied and Natural Sciences, Isparta, 122. 8. Frydrych, I., Sybilska, W., Wajszczyk, M., 2009, ‘Analysis of Selected Physical Properties of Membrane Fabrics Influencing the Utility Comfort of Clothing’, Fibres&Textiles in Eastern Europe , Vol:17, No: 6, 50-55. 9. Bulut, Y., Sülar, V., 2010, ‘General Properties and Performance Tests of Fabrics Produced by Coating and Lamination Techniques’, The Journal of Textiles and Engineer, Vol:15, No: 70-71, 5-16. 10. Bilgi, M., Kalaoğlu, F., 2010, ‘The Effects of Special Finishing Processes on the Performance and Comfort of the Military Garments’, Journal of Textile and Apparel, Vol:20, No: 4, 343-347. 11. Güney, F., Üçgül, İ., 2010, ‘Thermal Insulation Properties of Breathable Membrans Inside of Protecting Clothing’, Journal of Textile and Apparel, Vol:20, No: 1, 9-16. 12. Ergen A., 2010, Investigation of Performance Properties of Appliying Lamination Technics on 100% Poliester Woven Fabrics, M.Sc. Thesis, Çukurova University, Institute of Basic and Applied Sciences, Adana, 83. 13. TS 257 EN 20811, 1996, Textiles Fabrics-Determination of Resistance to Water Penetration-Hydrostatic Pressure Test. 14. TS 259 EN 24920, 2001, Textiles, determination of resistance to surface wetting (spray test) of fabrics. 15. TS 391 EN ISO 9237, 1999, Textiles-Determination of permeability of fabrics to air. 16. ASTM Method E96-00, 2009, Standard Test Method for Water Vapor Transmission of Materials, American Society for Testing and Materials.
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Details

Journal Section Articles
Authors

Füsun Doba Kadem

Aslıhan Ergen This is me

Publication Date December 30, 2011
Submission Date May 19, 2011
Acceptance Date August 22, 2011
Published in Issue Year 2011 Volume: 21 Issue: 4

Cite

APA Doba Kadem, F., & Ergen, A. (2011). INVESTIGATION OF SOME COMFORT PROPERTIES OF FABRICS LAMINATED WITH DIFFERENT TYPES OF MEMBRANES. Textile and Apparel, 21(4), 323-327.

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