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Wpływ gęstości i rodzaju ściegu na właściwości odprowadzania wilgoci szwów zastosowanych w odzieży sportowej
Języki publikacji
Abstrakty
The impact of stitch density and seam class on the moisture management properties of seams was investigated in this study. A lapped seam (Class 2) using a Flat Lock Stitch class ASTM 607 and a super imposed seam (Class 1) using an Overlock Stitch Class ASTM 514 were constructed with four different stitch densities – SPI 10, SPI 14, SPI 18 and SPI 22, and the moisture management properties of seamed fabric in terms of the spreading speed, area of spreading, absorption time, wetting time, one-way transport index and overall moisture management capability (OMMC) on the seam line were investigated. It was observed from the results that the seams made with low stitch density show better moisture management capability, and the lapped seam exhibits better moisture management capability when compared to the superimposed seam.
W pracy zbadano wpływ gęstości i klasy ściegu na właściwości odprowadzania wilgoci szwów. Zastosowano: szew zakładkowy (klasa 2) – Flat Lock Stitch class ASTM 607 i szew super narzucony (klasa 1) – Overlock Stitch Class ASTM 514. Szwy miały cztery różne gęstości ściegów: SPI 10, SPI 14, SPI 18 i SPI 22. Zbadano właściwości zarządzania wilgocią zszytej tkaniny pod względem szybkości rozprowadzania, obszaru rozprowadzania, czasu wchłaniania, czasu zwilżania, wskaźnika transportu w jedną stronę oraz ogólnej zdolności zarządzania wilgocią (OMMC) na linii szwu. Na podstawie wyników zaobserwowano, że szwy wykonane z małą gęstością ściegu wykazują lepszą zdolność odprowadzania wilgoci, a szew zakładkowy wykazuje lepszą zdolność odprowadzania wilgoci w porównaniu ze szwem nałożonym.
Czasopismo
Rocznik
Strony
72--78
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
autor
- VIT Fashion Institute of Technology, VIT Chennai – 632014, Tamilnadu, India
autor
- Indian Institute of Handloom Technology, Department of Handloom and Textile Technology, Fulia Colony, Shantipur, Nadia – 741402, West Bengal, India
autor
- Kumaraguru College of Technology, Department of Textile Technology, Coimbatore – 641049, Tamilnadu, India
Bibliografia
- 1. Eric Beaudette, Huiju Park. Impact of Seam Types on Thermal Properties of Athletic Bodywear. Textile Research Journal 2017; 87, 9.
- 2. Devanand Uttam. Active Sportswear Fabrics, International Journal of IT, Engineering and Applied Sciences Research (IJIEASR) 2013; 2, 1.
- 3. Shirreffs SM, Argon-Vagas LS, Chamorro M, Mughan RJ, Serrratosa L, Zachwieja JJ, The Sweating Response of Elite Professional Soccer Players to Training in the Heat. International Journal of Sports Medicine 2005; 26, 2: 90-95.
- 4. Havenith G, Heus R, Lotens WA. Resultant Clothing Insulation: A Function of Body Movement, Posture, Wind, Clothing Fit and Ensemble Thickness Journal Ergonomics 1990; 33, 1: 67-84.
- 5. Manshahia M, Das A. High Active Sportswear – a Critical Review. Indian Journal of Fibre & Textile Research 2014; 39, 4: 441-449.
- 6. Das B, Das A, Kothari V K, Fangueiro R & de Araujo M. Moisture Transmission Through Textiles Part II: Evaluation Methods and Mathematical Modelling. AUTEX Research Journal 2007; 7, 3.
- 7. Sachdeva R C. Fundamentals of Engineering Heat and Mass Transfer, 2nd edition, New Age International (P) Ltd, India, 2005.
- 8. Barnes J C, Holcombe B V. Moisture Sorption and Transport in Clothing During Wear. Textile Research Journal 1996; 66: 12.
- 9. Gibson P, Kendrick C, Rivin D, Sicuranza L. An Automated Water Vapor Diffusion Test Method for Fabrics, Laminates, and Films. Journal of Industrial Textile 1995; 24, 4.
- 10. Kissa E. Wetting and Wicking. Textile Research Journal 1996; 66, 10.
- 11. Fan J, Wang H W K. Review of Heat and Water Vapor Transfer Through Multilayer Fabrics. Textile Research Journal 2008; 86, 3.
- 12. Sumit Mandal, Nandita Abraham. An Overview of Sewing Threads Mechanical Properties on Seam Quality. Pakistan Textile Journal, January 2010.
- 13. Kaniz Farhana, Md. Syduzzaman, Dilruba Yeasmin. Effect of Sewing Thread Linear Density on Apparel Seam Strength: A Research on Lapped & Superimposed Seam. Journal of Advancements and Engineering and Technolog 2015; 3, 3, ISSN: 2348-2931.
- 14. Bharani M, Shiyamaladevi PSS, MahendraGowda RV. Characterization of Seam strength and Seam slippage on Cotton fabric with woven Structures and Finish. Research Journal of Engineering Sciences 2012; 1, 2: 41-50.
- 15. Gerhardt L-C, Mattle N, Schrade GU, Spencer ND, Derler S. Study of Skin–Fabric Interactions of Relevance to Decubitus: Friction and Contact-Pressure Measurements. Skin Res Technol 2008; 14, 1:77-88.
- 16. Janace E. Bubonia. Apparel quality: a guide to evaluating sewn products, Bloomsbury Publishing Inc., New York, 2014; 131-136.
- 17. Odzil N, Supuren G, Ozcelik G. Moisture Management and Thermal Absorptivity Properties of Double-Face Knitted Fabrics. Textile Research Journal 2009; 81, 13.
- 18. Manshahia M, Das A. Thermo-Physiological Comfort of Compression Athletic Wear. Indian Journal of Fibre and Textile Research 2014; 39, 2: 139-146.
- 19. Yao BG, L. i., Y., Hu J Y, Kwok YL, Yeung KW. An Improved Test Method for Characterizing the Dynamic Liquid Moisture Transfer in Porous Polymeric Materials. Polymer Testing 2006; 25, 5: 667-689.
- 20. Jebastin Rajwin A, Prakash C. Effect of Modified Yarn Path on Ring Spinning on the Moisture Management Properties of the Cotton Fabrics. Journal of Natural Fibres, 2019 available at: https://doi.org/10.1080/15440478.2019.1650157.
- 21. Raja D, Koushik CV, Ramakrishnan G, Subramaniam V, Ramesh Babu V. Measuring In-Plane Liquid Spread in Fabric Using an Embedded Image Processing Technique. FIBRES & TEXTILES in Eastern Europe 2012; 20, 4(93): 72-76.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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