Identyfikatory
Warianty tytułu
Badanie porównawcze właściwości szwów klejonych o różnych konstrukcjach
Języki publikacji
Abstrakty
Ready to wear end-products may be obtained by different assembling methods such as sewing, bonding, seam taping, welding and pressing fabrics. Currently, sewing is the most common method, but other techniques are improving day by day in accordance with the new application areas and new requirements from seamlines. Seam taping is an innovative alternative method that can improve the properties of seams. In this study, some essential properties such as the strength, elongation, thickness and air permeability of sealed samples with different constructions were compared. As taping constructions, ultrasonic bonding plus taping, sewing plus taping, and only taping methods were used. These methods were varied according to the taping temperature and speed. Also, only sewn and ultrasonically bonded samples were prepared as reference samples. In total, 20 different kinds of seam sealed samples were obtained as test materials. According to the results, taped samples were advantageous in terms of seam thickness and seam strength properties when compared to only sewn and ultrasonically bonded references. Especially, "only taped" samples were one step ahead among the all constructions. The air permeability of the taped seams decreased by a certain amount, but it is thought to be tolerable in a full garment.
Gotowe do noszenia produkty końcowe można otrzymać różnymi metodami łączenia, takimi jak: szycie, podklejanie, zgrzewanie i prasowanie tkanin. Obecnie szycie jest najpowszechniejszą metodą, ale inne techniki są z dnia na dzień udoskonalane zgodnie z nowymi obszarami zastosowań i nowymi wymaganiami dotyczącymi szwów. Podklejanie szwów to innowacyjna, alternatywna metoda, która może poprawić właściwości szwów. W badaniu porównano niektóre istotne właściwości, takie jak: wytrzymałość, wydłużenie, grubość i przepuszczalność powietrza próbek o różnych konstrukcjach. Jako konstrukcje z taśmami zastosowano klejenie ultradźwiękowe plus taping, szycie plus taping i tylko taping. Metody te były zróżnicowane w zależności od temperatury i prędkości taśmowania. Jako próbki referencyjne przygotowano również próbki szyte i wiązane ultradźwiękowo. W sumie uzyskano 20 różnych rodzajów próbek zgrzewanych jako materiały testowe. Zgodnie z wynikami próbki oklejone taśmą były korzystne pod względem grubości szwu i właściwości wytrzymałości szwu w porównaniu z wzorami zszywanymi i łączonymi ultradźwiękowo. W szczególności próbki „tylko zaklejone” były o krok przed wszystkimi konstrukcjami. Przepuszczalność powietrza w szwach klejonych zmniejszyła się o pewną wartość, ale uważa się, że może być to tolerowane.
Czasopismo
Rocznik
Strony
54--60
Opis fizyczny
Bibliogr. 41 poz., rys., tab.
Twórcy
autor
- Dokuz Eylul University, Textile Engineering Department Buca, Izmir, Turkey
autor
- Dokuz Eylul University, Textile Engineering Department Buca, Izmir, Turkey
Bibliografia
- 1. Kurumer G. Konfeksiyon uretimi ve teknolojisi 2nd Press, Printer Ofset Matbaacılık, Izmir. 2012.
- 2. Jana P. Assembling Technologies for Functional Garments – An Overview. Indian Journal of Fibre & Textile Research 2011; 36: 380-387.
- 3. Boles K. Examination of Alternative Fabric Joining Techniques Compared to Traditional Sewing. McNair Scholars Research Journal 2012; 5, 1: 1-17.
- 4. Grineviciute D, Valaseviciute L, Narviliene V, Dubinskaite K, Abelkiene R. Investigation of Sealed Seams Properties of Moisture Barrier Layer in Firefighters Clothing. Materials Science 2014; 20, 2: 198-204.
- 5. Shi W, Little T. Mechanisms of Ultrasonic Joining of Textile Materials. International Journal of Clothing Science and Technology 2000; 12, 5: 331-350.
- 6. Ujević D, Kovačević S, Horvat-Varga S. Analysis of High-Frequency Artificial Leather Welding as a Function of Seam Quality. FIBRES & TEXTILES in Eastern Europe 2011; 19, 4(87): 94-100.
- 7. Jakubcioniene Z, Masteikaite V, Kleveckas T, Jakubcionis M, Kelesova U. Investigation of the Strength of Textile Bonded Seams. Materials Science 2012; 18, 2: 172-176.
- 8. Kuo CFJ, Chen JB, Lin PH, Yen HT. Hot-Melt Pressure-Sensitive Adhesive for Seamless Bonding of Nylon Fabric Part I: Effect of a Functional Monomer. Textile Research Journal 2019, 89, 6: 926-935.
- 9. Beaudette E, Park H. Impact of Seam Types on Thermal Properties of Athletic Bodywear. Textile Research Journal 2017; 87, 9: 1052-1059.
- 10. Jeong WY,An SK. Mechanical Properties of Breathable Waterproof Fabrics with Seaming and Sealing Processes. Fibers and Polymers 2004; 5, 4: 316-320.
- 11. Kara S, Yesilpinar S. A Research on the Waterproofness of Seam Lines of Protective Clothes. Paper presented at the 5th European Conference on Protective Clothing and NOKOBETEF 10, Future of Protective Clothing: Intelligent or not 2012-a, 29-31 May, Valencia, Spain.
- 12. Kara S, Yesilpinar S. A Research on the Sewing Problems of Protective Clothes. Paper Presented at the 5th International Technical Textiles Congress 2012-B, 7-9 November, Izmir, Turkey.
- 13. Bahadir SK, Jevsnik S. Optimization of Hot Air Welding Process Parameters for Manufacturing Textile Transmission Lines for E-Textiles Applications: Part I: Electro-Conductive Properties. Textile Research Journal 2017; 87, 2: 232-243.
- 14. Hustedt M, Stein J, Herzog D, Meier O. Laser-Based Joining of Technical Textiles for Airbag Production. Paper presented at the Third World Automotive Congress Plastics-in-Motion 2008, 14-16 May, Czech Republic, Prague.
- 15. Namiranian R, Shaikhzadeh Najar S, Etrati SM, Manich AM. Seam Slippage and Seam Strength Behavior of Elastic Woven Fabrics Under Static Loading. Indian Journal of Fibre & Textile Research 2014; 39, 3: 221-229.
- 16. Choudhary AK, Goel A. Effect of Some Fabric and Sewing Conditions on Apparel Seam Characteristics. Journal of Textiles 2013, 1-7.
- 17. Gurarda A. Investigation of the Seam Performance of PET/Nylon-Elastane Woven Fabrics. Textile Research Journal 2008; 78, 1: 21-27.
- 18. Bharani M, Shiyamaladevi PSS, Mahendra Gowda 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.
- 19. Sular V, Mesegul C, Kefsiz H, Seki Y. A Comparative Study on Seam Performance of Cotton and Polyester Woven Fabrics. The Journal of the Textile Institute 2015; 106, 1: 19-30.
- 20. Citoglu F, Kaya G. Dikiş iplik özelliklerinin ve dikiş sıklıklarının farklı dikiş açılarında dikiş mukavemeti üzerine etkileri. Tekstilve Konfeksiyon 2011; 21, 2: 182-188.
- 21. Xin LU. Effect of Sewing Form and Parameters on Seam Strength of Silk Fabric. Shanghai Textile Science & Technology 2010; 5: 17.
- 22. Ozdemir H, Yavuzkasap D. The Effects of Yarn and Fabric Structural Parameters on the Seam Slippage, Abrasion and Pilling Properties of Double Woven Upholstery Fabrics. Industria Textila 2012; 63, 6: 307-314.
- 23. Yeşilpınar S, Bahar S. The Effect of Sewing and Washing Processes on the Seam Strength of Denim Trousers. AATCC review 2007; 7, 10: 27-31.
- 24. Yeşilpınar S. Analysis of the Performance of Sewing Threads Manufactured from Conventional and Compact Ring-spun Yarns. FIBRES & TEXTILES in Eastern Europe 2006; 14, 2(56): 20-23.
- 25. Gribaa S, Ben, Amar S, Dogui A. Influence of Sewing Parameters Upon the Tensile Behavior of Textile Assembly. International Journal of Clothing Science and Technology 2006; 18, 4: 235-246.
- 26. Chowdhary U, Poynor D. Impact of Stitch Density on Seam Strength, Seam Elongation, and Seam Efficiency. International Journal of Consumer Studies 2006; 30, 6: 561-568.
- 27. Tarafder N, Karmakar R, Mondal M. The Effect of Stitch Density on Seam Performance of Garments Stitched from Plain and Twill Fabrics. Man-Made Textiles in India 2007; 50, 8: 298-302.
- 28. Mukhopadhyay A, Sikka M, Karmakar AK. Impact of Laundering on the Seam Tensile Properties of Suiting Fabric. International Journal of Clothing Science and Technology 2004; 16, 4: 394-403.
- 29. Brain DH. The Prediction of Strengths of Lock Stitch Seams in Woven Fabrics. Journal of the Textile Institute 1970; 61, 10: 493-505.
- 30. Kuo CFJ, Lan WL, Wang JW, Chen JB, Lin PH. Hot-Melt Pressure-Sensitive Adhesive for Seamless Bonding of Nylon Fabric Part II: Process Parameter Optimization for Seamless Bonding of Nylon Fabric. Textile Research Journal 2018; 0040517518790970.
- 31. Golomeova S, Demboski G. The Influence of the Thermoplastic Reinforcement Tape Location on the Seam Performance. Advanced Technologies 2017; 6, 1: 93-95.
- 32. Korycki R, Szafranska H. Thickness Optimisation of Sealed Seams in Respect of Insulating Properties. FIBRES & TEXTILES in Eastern Europe 2017; 25, 2(122): 68-75. DOI: 10.5604/12303666.1228185.
- 33. Mikalauskaite G, Daukantiene V. Influence of the Delamination Loading Velocity on Textile Bonds and Sewn Seams Strength. International Journal of Clothing Science and Technology 2017; 29, 6: 768-775.
- 34. Shi H, Wang J, Chen X, Luo S, Zhang L. Research on the Seam Performance of Waterproof Clothing Based on Continuous Ultrasonic Welding Technology. International Journal of Clothing Science and Technology 2016; 28, 2: 171-190.
- 35. Irzmańska E, Majchrzycka K, Adamus-Włodarczyk A, Brochocka A. Evaluation of the Mechanical Parameters of Ultrasonically Welded Textile Composite Structures for Protective Footwear. FIBRES & TEXTILES in Eastern Europe 2019; 27, 3(135): 99-105. DOI: 10.5604/01.3001.0013.0821.
- 36. Belforte G, Eula G, Ivanov A, Grassi R, Askri H, Appendino S. Comparison of Assembly Techniques for Textiles Used in Pneumatic Devices. The Journal of the Textile Institute 2014; 105, 7: 717-728.
- 37. Jeong WY, An SK. Seam Characteristics of Breathable Waterproof Fabrics with Various Finishing Methods. Fibers and Polymers 2003; 4, 2: 71-76.
- 38. ASTM D 6193.Standard Practice for Stitches and Seams.
- 39. TS EN ISO 13935-2:2014. Textiles – Seam Tensile Properties of Fabrics and Made-Up Textile Articles – Part 2: Determination of Maximum Force to Seam Rupture Using the Grab Method.
- 40. TS 391 EN ISO 9237: 1999. Textiles-Determination of Permeability of Fabrics toAir.
- 41. TS 7128 EN ISO 5084: 1998. Textiles-Determination of Thickness of Textiles and Textile Products.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b06d2899-322b-431c-8a5a-b9ccf84bb589