Thermal Comfort Properties of Bamboo/Silk Fabrics

• Autorzy: Geethanjali T. , Prakash C. , Ramesh Babu V. , Jebastin Rajwin A.

Identyfikatory

DOI

10.5604/01.3001.0014.6079

Warianty tytułu

PL

Komfort termiczny i właściwości tkanin bambusowo-jedwabnych

• Języki publikacji: EN

Abstrakty

EN

The thermal resistance of fabrics containing silk showed a higher value in comparison with lyocell-rich blends. The water vapour permeability, absorbency and wickability of lyocell and lyocell-rich blends were found to be superior as compared to 100% silk fabrics. With respect to aesthetic comfort properties, the drape of the lyocell rich fabrics was good in comparison with 100% silk fabrics.

PL

W badaniu stwierdzono, że tkaniny zawierające jedwab mają wyższą wartość oporu cieplnego w porównaniu z mieszankami bogatymi w Lyocell. Stwierdzono również, że przepuszczalność pary wodnej, nasiąkliwość i podatność na skręcanie Lyocell i mieszanek bogatych w Lyocell były lepsze w porównaniu ze 100% tkaninami jedwabnymi. Pod względem komfortu estetycznego, tkanin bogatych w Lyocell wypadły lepiej, w porównaniu z tkaninami 100% jedwabnymi.

Słowa kluczowe

EN

bamboo; comfort; knitted fabric; thermal comfort; silk

PL

bambus; komfort; dzianina; komfort termiczny; jedwab

• Wydawca: Sieć Badawcza Łukasiewicz - Łódzki Instytut Technologiczny
• Czasopismo: Fibres & Textiles in Eastern Europe
• Rocznik: 2021
• Tom: Vol. 29, no. 2 (146)
• Strony: 36--40
• Opis fizyczny: Bibliogr. 18 poz., rys., tab.

Twórcy

autor

Geethanjali T.

• Sona College of Technology, Department of Fashion Technology, Salem – 636005, Tamil Nadu, India

autor

Prakash C.

• Indian Institute of Handloom Technology, Department of Handloom and Textiles, Govt. of India, Ministry of Textiles, Fulia Colony, Shantipur, Nadia – 741 402, West Bengal, India

• https://orcid.org/0000-0003-2472-6765

autor

Ramesh Babu V.

• Kumaraguru College of Technology, Department of Textile Technology, Chinnavedampatti, Coimbatore – 641049, Tamil Nadu, India

autor

Jebastin Rajwin A.

• Sona College of Technology, Department of Fashion Technology, Salem – 636005, Tamil Nadu, India

• https://orcid.org/0000-0002-2025-3502

Bibliografia

• 1. Schwarz I, Kovacevic S. Textile Application: from Need to Imagination. Textiles for Advanced Applications 2017; DOI: 10.5772intechopen.68376.
• 2. Jocic D. Functional Finishing of Textiles With Responsive Polymeric Systems. In Surface Modification Systems for Creating Stimuli Responsiveness of Textiles. Workshop Proceedings: 6th Framework programe ADVANBIOTEX of the EU 2020; 21(1): 37-59.
• 3. Uddin K, Hossain S. A Comparative Study on Silk Dyeing with Reactive Dye and Acid Dyes. International Journal of Engineering and Technology 2010; 10(6): 21-26.
• 4. Gahlot M. Properties of Oak Tasar/Viscose Blended Yarns. Indian Journal of Fibre and Textile Research 2011; 36(2): 187-189.
• 5. Dey S, Singh S, Dey S, Chaudhury S, Chakraborty R, Hooroo RNK, Sharma DK. UV-Reflecting Wing Scales in the Silk Moth Antheraeaassamensis: Its Biophysical Implications. Microscopy Research and Technique 2011; 74(1): 28-35.
• 6. Karthikeyan G, Nalankilli G, Shanmugasundaram OL, Prakash C. Thermal Comfort Properties of Bamboo Tencel Knitted Fabrics. International Journal of Clothing Science and Technology 2016; 28(4): 420-428.
• 7. Wardiningsih W, Troynikov O. Influence of Cover Factor on Liquid Moisture Transport Performance of Bamboo Knitted Fabrics. Journal of the Textile Institute 2012; 103(1): 89-98.
• 8. Alay S. An Investigation of Knitted Fabric Performances Obtained from Different Natural and Regenerated Fibres. Journal of Engineering Science and Design 2010; 1(2): 91-95.
• 9. Mahish SS, Patra AK, Thakur R. Functional Properties of Bamboo/Polyester Blended Knitted Apparel Fabrics. Indian Journal of Fibre and Textile Research 2012; 37 (3): 231-237.
• 10. Hua T, Tao XM, Cheng KPS, Xu BG. Effects of Geometry of Ring Spinning Triangle on Yarn Torque Part I: Analysis of Fiber Tension Distribution. Textile Research Journal 2007; 77(11): 853-863.
• 11. Verma N, Grewal N, Bains S. Evaluation of Comfort and Handle Behavior of Mulberry Silk Waste/Wool Blended Fabrics for End Use. Journal of Natural Fibers 2016; 13(3): 277-288.
• 12. Militky J, Vik M, Vikova M, Kremenakova D. Influence of fabric construction on their porosity and air permeability. In Proceedings of 2nd SIENTEX Conference International Symposium of Textile Engineering 2004; 22 (3): 1-18.
• 13. Aboalasaad AR, Skenderi Z, Kolcavova SB, Khalil AA. Analysis of Factors Affecting Thermal Comfort Properties of Woven Compression Bandages. Autex Research Journal 2020; 20(2): 178-185.
• 14. Raj S, Sreenivasan S. Total Wear Comfort Index as an Objective Parameter for Characterization of Overall Wearability of Cotton Fabrics. Journal of Engineered Fibers and Fabrics 2009; 4(4): DOI. org/10.1177/155892500900400406.
• 15. Tyagi GK, Krishna G, Bhattacharya S, Kumar P. Comfort Aspects of Finished Polyester-Cotton and Polyester-Viscose Ring and MJS Yarn Fabrics. Indian Journal of Fibre and Textile Research 2009; 34(2): 137-143.
• 16. Prakash C., Ramakrishnan G., Koushik C. V.; Effect of Blend Ratio on the Quality Characteristics of Bamboo/Cotton Blended Ring Spun Yarn. FIBRES & TEXTILES in Eastern Europe 2011, Vol. 19, No. 6 (89) pp. 38-40.
• 17. Vidya T, Prakash C. Comparison of Moisture Management Properties of Plasma Treated Single Jersey Fabric with Different Types of Polyester Yarns. FIBRES & TEXTILES in Eastern Europe 2019; 27, 1(133): 32-36. DOI: 10.5604/01.3001.0012.7505.
• 18. Çeven EK, Karakan Günaydin G. Investigation of Moisture Management and Air Permeability Properties of Fabrics with Linen and Linen-Polyester Blend Yarns. FIBRES & TEXTILES in Eastern Europe 2018; 26, 4(130): 39-47. DOI:10.5604/01.3001.0012.1311.