Yıl 2019,
Cilt: 3 Sayı: 1, 37 - 47, 27.06.2019
Koray Bükülmezer
,
Ayşe Ebru Tayyar
Kaynakça
- GROSICKI Z, J. Watson’s Advanced Textile Design, Woodhead Publishing 2004
- ANDERSON, K. It’s not Just an Aesthetic Decision: Choosing the Right Weave Design, www.techexchange.com September 10, 2017
- SCHIEFER, H, F. Effect of Weave on the Properties of Cloth, Part of Bureau of Standards Journal of Research, 1933, Vol 11, P 441-51.
- EMIRHANOVA N., KAVUSTURAN Y., Effects of knit structure on the dimensional and physical properties of winter outerwear knitted fabrics. Fibres & Textiles in Eastern Europe 2008;16, 2: 69–74
- SARICAM, C., KADAOĞLU, F., Investigation of the Wicking and Drying Behaviour of Polyester Woven Fabrics, Fibres and Textiles in Eastern Europe, 2014, 22, 3(105): 73-78
- PATNAIK, A., RENGASAMY, R, S., KOTHARI, V, K., GHOSH, A., Wetting and Wicking In Fibrous Materials, Textile Progress, 2006, 38:1, 1-105
- BABU, R, V., RAMAKRISHNAN, G., SUBRAMANIAN, V, S., LAKSHIMI K. Analysis of Fabrics Structure on the Character of Wicking, 2012, Journal of Engineered Fibers and Fabrics, Vol 7, Issue 3
- HARNETT, P, R., METHA, P, N., Survey and Comparison of Laboratory Test Methods for Measuring Wicking, Textile Research Journal, 1984, 54, No.7, 471-478
- MILLER, B., The Wetting of Fibers, in Surface Characteristics of Fibers and Textiles Part II, 1977, NY, USA, p 417
- MILLER, B, YOUNG R., A., Methodology for Studying the Wettability of Filaments, Textile Research Journal, 1975, 45, No.5, p359-65
- SAVILLE, P, B., Comfort in Physical Testing of Textiles, The Textile Institute, Woodhead Publishing Ltd., Cambridge, 1999, UK, p227
- ADAM, N, K., 1968, Solid Surfaces: General Properties in the Physics and Chemistry of Surfaces, Dover, NY USA,1968, p179
- SIMILE, C, B., Critical Evaluation of Wicking in Performance Fabrics, Georgia Institute of Technology, 2004, Thesis
- HARNETT, P, R., MEHTA, P. N., A Survey and Comparison of Labratory Test Methods for Measuring Wicking, Textile Research Journal. 1984, 54, 471-478.
- OWENS, T., Engineering Amphiphilic Fabrics for Microfluidic Applications, Georgia Institute of Technology,2011
- MILLER, B,, Critical Evaluation of Upward Wicking Tests, International Nonwovens Journal, 2000, 9, p35-40
- KISSA, E., Wetting and Wicking, Textile Research Journal, 1996, 66 (10):660-668
- AŞKIN, S., Pamuklu Havlu Kumaşlarda Performans Özelliklerinin İncelenmesi, Uşak Üniversitesi Fen Bilimleri Enstitüsü Y. Lisans Tezi, 2015
- NYONİ A, B., Liquid Transport in Nylon 6.6. Woven Fabrics Used for Outdoor Performance Clothing. In: Vassiliadis S. (Ed) Advances in modern woven fabrics technology. 1st ed. InTech, 2011, pp.211- 40
- KESKİN, R., PALAMUTCU, S., KARA, S., Absorbency Characteristics of Peshtamals: Traditional Turkish Woven Clothes, Annals of the University of Oradea Fascicle of Textiles, Leatherwork, Romania, 2014
- ÖZDEMİR, H., Permeability and Wicking Properties of Modal and Lyocell Woven Fabrics Used for Clothing, Journal of Engineered Fibers and Fabrics, 2017, Vol 12, Issue 1
- CALVIMONTES A., BADRUL HASAN, M., DUTSCHK, V., , Effects of Topographic Structure on Wettability of Differently Woven Fabrics, Textile Research Journal, 2008, Vol 78, P 996
- NASSAR, K., ABOU-TALEB, E., B., Effect of Selected Fabric Construction Elements on Wicking Rates of PET Fabrics, J Textile Sci Eng. 2014, 4:158
DOKUMA KUMAŞLARDA KULLANILAN ÖRGÜ YAPILARININ KUMAŞLARIN ISLANMA VE EMİCİLİK ÖZELLİKLERİNE OLAN ETKİLERİ
Yıl 2019,
Cilt: 3 Sayı: 1, 37 - 47, 27.06.2019
Koray Bükülmezer
,
Ayşe Ebru Tayyar
Öz
Dokuma kumaşlar; birbirine dik olarak konumlandırılmış
atkı ve çözgü olarak adlandırılan iki iplik takımının birbiriyle belirli
düzende ve sayıda bağlantılar yapması ile oluşan tekstil yüzeyleridir. Atkı ve
çözgü ipliklerinin birbiriyle farklı düzenlerde ve birim alanda farklı
sayılarda bağlantı yapmasıyla pek çok farklı dokuma kumaş örgüleri elde
edilmektedir. Bu örgüler yalnızca kumaşın görünüş ve estetik özellikleri değil
aynı zamanda mekanik ve fiziksel özellikleri üzerinde de oldukça etkilidir. Bu
çalışmada dokuma kumaşların kullanılan örgü çeşidine bağlı olarak içerdiği
farklı oranlarda yüzmelerin, kumaşların ıslanma ve emicilik özelliklerine olan
etkileri araştırılacaktır. Öncelikle kumaşların ıslanma ve emicilik
özelliklerini, bu özelliklerin hangi değişkenlere bağlı olarak
değişebileceğini, kumaşların ıslanma ve emicilik performanslarının nasıl
ölçülebileceğini, literatürde daha önce yapılmış olan farklı örgü çeşitlerinde
kullanılan kumaşların ıslanma ve emicilik özelliklerine olan etkileri
derlenecektir.
Kaynakça
- GROSICKI Z, J. Watson’s Advanced Textile Design, Woodhead Publishing 2004
- ANDERSON, K. It’s not Just an Aesthetic Decision: Choosing the Right Weave Design, www.techexchange.com September 10, 2017
- SCHIEFER, H, F. Effect of Weave on the Properties of Cloth, Part of Bureau of Standards Journal of Research, 1933, Vol 11, P 441-51.
- EMIRHANOVA N., KAVUSTURAN Y., Effects of knit structure on the dimensional and physical properties of winter outerwear knitted fabrics. Fibres & Textiles in Eastern Europe 2008;16, 2: 69–74
- SARICAM, C., KADAOĞLU, F., Investigation of the Wicking and Drying Behaviour of Polyester Woven Fabrics, Fibres and Textiles in Eastern Europe, 2014, 22, 3(105): 73-78
- PATNAIK, A., RENGASAMY, R, S., KOTHARI, V, K., GHOSH, A., Wetting and Wicking In Fibrous Materials, Textile Progress, 2006, 38:1, 1-105
- BABU, R, V., RAMAKRISHNAN, G., SUBRAMANIAN, V, S., LAKSHIMI K. Analysis of Fabrics Structure on the Character of Wicking, 2012, Journal of Engineered Fibers and Fabrics, Vol 7, Issue 3
- HARNETT, P, R., METHA, P, N., Survey and Comparison of Laboratory Test Methods for Measuring Wicking, Textile Research Journal, 1984, 54, No.7, 471-478
- MILLER, B., The Wetting of Fibers, in Surface Characteristics of Fibers and Textiles Part II, 1977, NY, USA, p 417
- MILLER, B, YOUNG R., A., Methodology for Studying the Wettability of Filaments, Textile Research Journal, 1975, 45, No.5, p359-65
- SAVILLE, P, B., Comfort in Physical Testing of Textiles, The Textile Institute, Woodhead Publishing Ltd., Cambridge, 1999, UK, p227
- ADAM, N, K., 1968, Solid Surfaces: General Properties in the Physics and Chemistry of Surfaces, Dover, NY USA,1968, p179
- SIMILE, C, B., Critical Evaluation of Wicking in Performance Fabrics, Georgia Institute of Technology, 2004, Thesis
- HARNETT, P, R., MEHTA, P. N., A Survey and Comparison of Labratory Test Methods for Measuring Wicking, Textile Research Journal. 1984, 54, 471-478.
- OWENS, T., Engineering Amphiphilic Fabrics for Microfluidic Applications, Georgia Institute of Technology,2011
- MILLER, B,, Critical Evaluation of Upward Wicking Tests, International Nonwovens Journal, 2000, 9, p35-40
- KISSA, E., Wetting and Wicking, Textile Research Journal, 1996, 66 (10):660-668
- AŞKIN, S., Pamuklu Havlu Kumaşlarda Performans Özelliklerinin İncelenmesi, Uşak Üniversitesi Fen Bilimleri Enstitüsü Y. Lisans Tezi, 2015
- NYONİ A, B., Liquid Transport in Nylon 6.6. Woven Fabrics Used for Outdoor Performance Clothing. In: Vassiliadis S. (Ed) Advances in modern woven fabrics technology. 1st ed. InTech, 2011, pp.211- 40
- KESKİN, R., PALAMUTCU, S., KARA, S., Absorbency Characteristics of Peshtamals: Traditional Turkish Woven Clothes, Annals of the University of Oradea Fascicle of Textiles, Leatherwork, Romania, 2014
- ÖZDEMİR, H., Permeability and Wicking Properties of Modal and Lyocell Woven Fabrics Used for Clothing, Journal of Engineered Fibers and Fabrics, 2017, Vol 12, Issue 1
- CALVIMONTES A., BADRUL HASAN, M., DUTSCHK, V., , Effects of Topographic Structure on Wettability of Differently Woven Fabrics, Textile Research Journal, 2008, Vol 78, P 996
- NASSAR, K., ABOU-TALEB, E., B., Effect of Selected Fabric Construction Elements on Wicking Rates of PET Fabrics, J Textile Sci Eng. 2014, 4:158