BibTex RIS Cite

THERMAL COMFORT PROPERTIES OF FABRICS KNITTED FROM BAMBOO/COTTON BLENDED YARNS

Year 2017, Volume: 19 Issue: 56, 510 - 518, 01.05.2017

Hüseyin Gazi Türksoy Sümeyye Üstüntağ Gurbet Çarkıt

Abstract

In this research, some thermal comfort properties of fabrics knitted from 70/30 % bamboo/cotton blended yarns were investigated in comparison with fabrics which have different structures (plain knit, pique knit and double knit,) and raw materials (cotton, modal and cotton/modal). The results reveal that measured thermal comfort properties of bamboo/cotton knitted fabrics change depending on fabric structure and fabric type. The air permeability values of bamboo/cotton blended knits were higher for pique fabric as compared to those values of double and plain knit fabrics. Also, it was observed that 70/30 % bamboo/cotton double knit fabrics have the lowest water vapor resistance and thermal resistance values as compared to other double knit fabrics which have different raw materials

Keywords

Bamboo fiber Thermal comfort properties Air permeability Water vapor resistance Thermal resistance

References

  • Fayala, F., Alibi, H., Benltoufa, S., Jemni, A., 2008. Neural Network for Predicting Thermal Conductivity of Knit Materials, Journal of Engineered Fibers and Fabrics, vol. 3, issue 4, p. 53-60.
  • Avcı, H., 2005. Comfort Properties of Socks Produced with New Fabrics, Master’s Thesis, Istanbul Technical University, İstanbul, Turkey.
  • Karalomlu, E., 2010. Investigation of Comfort Properties of Functional Fabric which Used with Military Aim, Master’s Thesis, Uludag University, Bursa, Turkey.
  • Guignard, M. I., Farima, D., Ciobanu, L., Ciobanu, M., Gıraud, S., Campagne, C., Asavei, G. B., 2013. Comfort properties of knitted fabrics with massaging effects, Industria Textila, vol. 64, issue 1, p. 34-38.
  • Kanat, Z., E., 2007. Comparison of Comfort Properties of Woven Fabrics Produced with Different Yarns, Master’s Thesis, Ege University, Izmir, Turkey.
  • Demiroz Gun A., Unal C., and Unal B. T., 2008. Properties of Plain Knitted Fabrics Made from 50/50 Bamboo/Cotton Blended Yarns, Fibers and Polymers, vol. 9, issue 5, p. 588-592. Physical
  • Das, B., Das, A., Kothari, V., Fanguiero, R. M. ve transmission through textiles Part I: Processes transmission and the factors at play, AUTEX Research Journal, vol. 7 (2), p. 100-110. Moisture involved in moisture
  • Oğlakçıoğlu, N. ve Marmaralı, A. 2007. Thermal comfort properties of some knitted structures, Fibres & Textiles in Eastern Europe, vol. 15 (5-6), p. 64-65.
  • Nayak, R., Punj, S., Chatterjee, K. ve Behera, B., 2009. Comfort properties of suiting fabrics, Indian Journal of Fibre ve Textile Research, vol. 34, p. 122-128.
  • Onofrei, E., Rocha, A. ve Catarino, A. 2011. The influence of knitted fabrics' structure on the thermal and moisture management properties, Journal of Engineered Fibers and Fabrics, vol. 6 (4), p. 10-22.
  • Troynikov, O. ve Wardiningsih, W. 2011. Moisture management properties of wool/polyester knitted fabrics for the sportswear base wool/bamboo layer, Textile Research Journal, vol. 81 (6), p. 621-631.
  • Namligoz, E. S., Coban, S. ve Bahtiyari, M. I., 2010. Comparison of moisture transport properties of the various woven fabrics, Tekstil ve Konfeksiyon, vol. 20, p. 93–100.
  • Prakash, C., Ramakrishnan, G., & Koushik, C. V., 2012. A study of the thermal properties of single jersey fabrics cotton/bamboo blended yarn vis-a-vis bamboo fibre presence and yarn count, Journal of Thermal Analysis and Calorimetry, vol. 110, p. 1173–1177.
  • Prakash, C., Ramakrishnan, G., & Koushik, C. V., 2013. A study of the thermal properties of bamboo knitted fabrics, Journal of Thermal Analysis and Calorimetry, vol. 111, p. 101–105.
  • Atasağun, H., Öner, E., Okur, A. ve Beden, A., 2015. A comprehensive study on the general performance properties of Viloft-blended knitted fabrics, The Journal of The Textile Institute, vol. 106 (5), p. 523-535.
  • Büyükakıncı, B. Y., Sökmen, N., Öner, E., 2011. Investigating Dyeing Properties of Regenerated Bamboo Material Dyed with Reactive and Direct Dyes, Industria Textila, vol. 62, issue 2, p. 72-76.
  • Wang, Y., Gao, X., 2004. Study on Structure of The Nature Bamboo Fiber, Proceedings of the Textile Institute 83rd World Conference, May 23-27, p. 135- 137. [18] Erdumlu, N., Ozipek, B., 2008. Investigation of Regenerated Bamboo Fibre and Yarn Characteristics, Fibres and Textiles in Eastern Europe, vol. 16, issue 4 (69), p. 43-47.
  • Ozgen, B., 2012. New Biodegradable Fibres, Yarn Properties and Their Applications in Textiles: A Review, Industria Textila, vol. 63, issue 1, p. 3-7.
  • Mikucioniene, D., 2013. Arbataitis, E., Comparative Analysis of the Influence of Bamboo and Other Cellulose Fibres on Selected Structurel Prameters and Physical Properties of Knitted Fabrics, Fibres&Textiles in Eastern Europe 2013, 21, 3(99):76-80.
  • Majumdar, A., Mukhopadhyay, S., Yadav, R., 2010. Thermal Properties of Knitted Fabrics Made From Cotton and Regenerated Bamboo Cellulosic Fibres, International Journal of Thermal Sciences, vol. 49, p. 2042-2048.
  • Prakash, C., Ramakrishnan, G., 2013. Effect of Blend Ratio, Loop Length, and Yarn Linear Density on Thermal Comfort Properties of Single Jersey Knitted Fabrics, Int J Thermophys, vol. 34, p. 113-121.
  • ASTM D 1777-96, Standard Test Method for Thickness of Textile Materials.
  • ISO 9237-1999, Textiles-Determination of Permeability of Fabrics to Air.
  • Demiroz Gun, A., 2011. Dimensional, Physical Properties of Plain Knitted Fabrics Made from Modal Viscose Yarns Having Microfibers and Conventional Fibers, Fibers and Polymers, vol.12, issue 2, p. 258-267. Comfort [26] ISO 11092, 1993. of Determination Properties-Measurement of Thermal and Water Vapor Resistance Under Steady-State Guarded-Hotplate Test). Physiological Conditions (Sweating
  • Surdu, L., Ghituleasa, C., Mihai, C., Ene, A., Radulescu, I., Subticica, A., Cioara, I., 2013. Comfort Properties of Multiayer Textile Materials for Clothing, Industria Textila, vol. 64, issue 2, p. 75-79.

BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ

Year 2017, Volume: 19 Issue: 56, 510 - 518, 01.05.2017

Hüseyin Gazi Türksoy Sümeyye Üstüntağ Gurbet Çarkıt

Abstract

Bu çalışmada, %70/30 bambu/pamuk karışımlı ipliklerden örülen kumaşların termal konfor özellikleri farklı yapı (süprem, lacoste ve ribana) ve hammaddelere (pamuk, modal, pamuk/modal) sahip kumaşlar ile karşılaştırılmalı olarak incelenmiştir. Çalışma sonucunda, bambu/pamuk karışımlı ipliklerden örülen kumaşların termal konfor özelliklerinin kumaş yapısı ve lif tipine bağlı olarak değiştiği görülmüştür. Lacoste bambu/pamuk karışımlı kumaşların hava geçirgenliği değerleri süprem ve ribana kumaşlara göre daha yüksek çıkmıştır. Ayrıca, %70/30 bambu/pamuk ribana kumaşların, diğer hammaddeler ile örülen ribana kumaşlara göre daha düşük su buharı ve termal dirence sahip olduğu görülmüştür

Keywords

Bambu lifi Termal konfor özellikleri Hava geçirgenliği Su buharı direnci Termal direnç

References

  • Fayala, F., Alibi, H., Benltoufa, S., Jemni, A., 2008. Neural Network for Predicting Thermal Conductivity of Knit Materials, Journal of Engineered Fibers and Fabrics, vol. 3, issue 4, p. 53-60.
  • Avcı, H., 2005. Comfort Properties of Socks Produced with New Fabrics, Master’s Thesis, Istanbul Technical University, İstanbul, Turkey.
  • Karalomlu, E., 2010. Investigation of Comfort Properties of Functional Fabric which Used with Military Aim, Master’s Thesis, Uludag University, Bursa, Turkey.
  • Guignard, M. I., Farima, D., Ciobanu, L., Ciobanu, M., Gıraud, S., Campagne, C., Asavei, G. B., 2013. Comfort properties of knitted fabrics with massaging effects, Industria Textila, vol. 64, issue 1, p. 34-38.
  • Kanat, Z., E., 2007. Comparison of Comfort Properties of Woven Fabrics Produced with Different Yarns, Master’s Thesis, Ege University, Izmir, Turkey.
  • Demiroz Gun A., Unal C., and Unal B. T., 2008. Properties of Plain Knitted Fabrics Made from 50/50 Bamboo/Cotton Blended Yarns, Fibers and Polymers, vol. 9, issue 5, p. 588-592. Physical
  • Das, B., Das, A., Kothari, V., Fanguiero, R. M. ve transmission through textiles Part I: Processes transmission and the factors at play, AUTEX Research Journal, vol. 7 (2), p. 100-110. Moisture involved in moisture
  • Oğlakçıoğlu, N. ve Marmaralı, A. 2007. Thermal comfort properties of some knitted structures, Fibres & Textiles in Eastern Europe, vol. 15 (5-6), p. 64-65.
  • Nayak, R., Punj, S., Chatterjee, K. ve Behera, B., 2009. Comfort properties of suiting fabrics, Indian Journal of Fibre ve Textile Research, vol. 34, p. 122-128.
  • Onofrei, E., Rocha, A. ve Catarino, A. 2011. The influence of knitted fabrics' structure on the thermal and moisture management properties, Journal of Engineered Fibers and Fabrics, vol. 6 (4), p. 10-22.
  • Troynikov, O. ve Wardiningsih, W. 2011. Moisture management properties of wool/polyester knitted fabrics for the sportswear base wool/bamboo layer, Textile Research Journal, vol. 81 (6), p. 621-631.
  • Namligoz, E. S., Coban, S. ve Bahtiyari, M. I., 2010. Comparison of moisture transport properties of the various woven fabrics, Tekstil ve Konfeksiyon, vol. 20, p. 93–100.
  • Prakash, C., Ramakrishnan, G., & Koushik, C. V., 2012. A study of the thermal properties of single jersey fabrics cotton/bamboo blended yarn vis-a-vis bamboo fibre presence and yarn count, Journal of Thermal Analysis and Calorimetry, vol. 110, p. 1173–1177.
  • Prakash, C., Ramakrishnan, G., & Koushik, C. V., 2013. A study of the thermal properties of bamboo knitted fabrics, Journal of Thermal Analysis and Calorimetry, vol. 111, p. 101–105.
  • Atasağun, H., Öner, E., Okur, A. ve Beden, A., 2015. A comprehensive study on the general performance properties of Viloft-blended knitted fabrics, The Journal of The Textile Institute, vol. 106 (5), p. 523-535.
  • Büyükakıncı, B. Y., Sökmen, N., Öner, E., 2011. Investigating Dyeing Properties of Regenerated Bamboo Material Dyed with Reactive and Direct Dyes, Industria Textila, vol. 62, issue 2, p. 72-76.
  • Wang, Y., Gao, X., 2004. Study on Structure of The Nature Bamboo Fiber, Proceedings of the Textile Institute 83rd World Conference, May 23-27, p. 135- 137. [18] Erdumlu, N., Ozipek, B., 2008. Investigation of Regenerated Bamboo Fibre and Yarn Characteristics, Fibres and Textiles in Eastern Europe, vol. 16, issue 4 (69), p. 43-47.
  • Ozgen, B., 2012. New Biodegradable Fibres, Yarn Properties and Their Applications in Textiles: A Review, Industria Textila, vol. 63, issue 1, p. 3-7.
  • Mikucioniene, D., 2013. Arbataitis, E., Comparative Analysis of the Influence of Bamboo and Other Cellulose Fibres on Selected Structurel Prameters and Physical Properties of Knitted Fabrics, Fibres&Textiles in Eastern Europe 2013, 21, 3(99):76-80.
  • Majumdar, A., Mukhopadhyay, S., Yadav, R., 2010. Thermal Properties of Knitted Fabrics Made From Cotton and Regenerated Bamboo Cellulosic Fibres, International Journal of Thermal Sciences, vol. 49, p. 2042-2048.
  • Prakash, C., Ramakrishnan, G., 2013. Effect of Blend Ratio, Loop Length, and Yarn Linear Density on Thermal Comfort Properties of Single Jersey Knitted Fabrics, Int J Thermophys, vol. 34, p. 113-121.
  • ASTM D 1777-96, Standard Test Method for Thickness of Textile Materials.
  • ISO 9237-1999, Textiles-Determination of Permeability of Fabrics to Air.
  • Demiroz Gun, A., 2011. Dimensional, Physical Properties of Plain Knitted Fabrics Made from Modal Viscose Yarns Having Microfibers and Conventional Fibers, Fibers and Polymers, vol.12, issue 2, p. 258-267. Comfort [26] ISO 11092, 1993. of Determination Properties-Measurement of Thermal and Water Vapor Resistance Under Steady-State Guarded-Hotplate Test). Physiological Conditions (Sweating
  • Surdu, L., Ghituleasa, C., Mihai, C., Ene, A., Radulescu, I., Subticica, A., Cioara, I., 2013. Comfort Properties of Multiayer Textile Materials for Clothing, Industria Textila, vol. 64, issue 2, p. 75-79.
There are 25 citations in total.

Details

Other ID JA58TF54VJ
Journal Section Research Article
Authors

Hüseyin Gazi Türksoy This is me

Sümeyye Üstüntağ This is me

Gurbet Çarkıt This is me

Publication Date May 1, 2017
Published in Issue Year 2017 Volume: 19 Issue: 56

Cite

APA Türksoy, H. G., Üstüntağ, S., & Çarkıt, G. (2017). BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen Ve Mühendislik Dergisi, 19(56), 510-518.
AMA Türksoy HG, Üstüntağ S, Çarkıt G. BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ. DEUFMD. May 2017;19(56):510-518.
Chicago Türksoy, Hüseyin Gazi, Sümeyye Üstüntağ, and Gurbet Çarkıt. “BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ”. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen Ve Mühendislik Dergisi 19, no. 56 (May 2017): 510-18.
EndNote Türksoy HG, Üstüntağ S, Çarkıt G (May 1, 2017) BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen ve Mühendislik Dergisi 19 56 510–518.
IEEE H. G. Türksoy, S. Üstüntağ, and G. Çarkıt, “BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ”, DEUFMD, vol. 19, no. 56, pp. 510–518, 2017.
ISNAD Türksoy, Hüseyin Gazi et al. “BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ”. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen ve Mühendislik Dergisi 19/56 (May 2017), 510-518.
JAMA Türksoy HG, Üstüntağ S, Çarkıt G. BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ. DEUFMD. 2017;19:510–518.
MLA Türksoy, Hüseyin Gazi et al. “BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ”. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen Ve Mühendislik Dergisi, vol. 19, no. 56, 2017, pp. 510-8.
Vancouver Türksoy HG, Üstüntağ S, Çarkıt G. BAMBU/PAMUK KARIŞIMLI İPLİKLERDEN ÖRÜLEN KUMAŞLARIN TERMAL KONFOR ÖZELLİKLERİ. DEUFMD. 2017;19(56):510-8.

Dokuz Eylül Üniversitesi, Mühendislik Fakültesi Dekanlığı Tınaztepe Yerleşkesi, Adatepe Mah. Doğuş Cad. No: 207-I / 35390 Buca-İZMİR.