Research Article
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Some Comfort Properties of Spacer Fabrics from Recycled and Umorfil Polyamide Fibers for Sportswear Applications

Year 2024, Volume: 34 Issue: 3, 200 - 210, 30.09.2024
https://doi.org/10.32710/tekstilvekonfeksiyon.1260383

Abstract

Sportswear, the clothing including footwear, worn during sports or physical exercise, has an increasing demand and the sports apparel with improved comfort properties have become more popular than ever. Enhancing the wearer’s comfort is possible by engineering fabric structures by incorporating suitable fibers. For doing so, in this study, bilayered spacer fabric samples were produced from sustainable fibers namely, recycled PA66 and PA6-Umorfil yarns, together with 44 dtex elastane. A PA6 FDY monofilament yarn was employed as the spacer yarn. The results showed that comfort properties of sports apparel can be improved by using recycled and Umorfil poliamide fibers in different parts of the garments depending on the intended use and purposes. Use of such sustainable fibers in the fabric structure is not only suitable for achieving active sportswear comfort but also is respectful to the environment.

References

  • 1. McCarthy, B.J. 2016. An overview of the technical textiles sector. In Horrocks A. R., Anand S.C. (Eds). Handbook of technical textiles, pp.120.
  • 2. Paul, R. (Ed.). 2019. High performance technical textiles. John Wiley & Sons.https://doi.org/10.1002/9781119325062.
  • 3. Rasheed, A. 2020. Classification of Technical Textiles. In: Ahmad, S., Rasheed, A., Nawab, Y. (Eds) Fibers for Technical Textiles. Topics in Mining, Metallurgy and Materials Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-49224-3_3.
  • 4. Kumar, C.S., Kumar, B.S., Rachel, D.A. 2020. Comfort aspects of sportswear base fabrics: a review. Journal of Emerging Technologies and Innovative Research, 7(2), pp.1071-1076.
  • 5. Uttam, D. 2013. Active sportswear fabrics. International Journal of IT, Engineering and Applied Sciences Research, 2(1), pp.34-40.
  • 6. Jhanji, Y. 2021. Sportswear: Acumen of Raw Materials, Designing, Innovative and Sustainable Concepts. Textiles for Functional Applications, 261.
  • 7. Senthilkumar, M., Sampath, M. B., Ramachandran, T. 2012. Moisture Management in an Active Sportswear: Techniques and Evaluation—A Review Article. Journal of The Institution of Engineers (India): Series E, 93(2), 61–68.
  • 8. Choudhary, A. K. 2020. The influence of yarn and knit structure on moisture management properties of sportswear fabric. Journal of The Institution of Engineers (India): Series E, 101, 77-90.
  • 9. Soydan, A. S., Karakan Günaydin, G., Ergezer, H., Palamutcu, S. 2021. Moisture management and antimicrobial performance of collagen peptide enriched knitted fabrics. The Journal of The Textile Institute, 112(7), 1023-1036.
  • 10. Suganthi, S., Pachiayappan, K. M., Priyalatha, S., Prakash, C. 2023. A Comparative Study on Moisture Management Properties of Natural and Manmade Cellulosic Fabrics Produced from Plain and Its Derivative Knitted Structures. Journal of Natural Fibers, 20(1).
  • 11. Duru, S. C., Göcek, İ. 2020. Assessing Water-Related Comfort Performance of Knitted Fabrics made of Rayon Microfibers and Lyocell Fibers for Intimate Wear. Tekstil ve Konfeksiyon, 30(3), 220-230.
  • 12. Çeven, E. K., Günaydın, G. K. 2021. Evaluation of Some Comfort and Mechanical Properties of Knitted Fabrics Made of Different Regenerated Cellulosic Fibres. Fibers and Polymers, 22(2), 567–577.
  • 13. Sathish Babu, B., Senthil Kumar, P., Senthil Kumar, M. 2020. Effect of yarn type on moisture transfer characteristics of double-face knitted fabrics for active sportswear. Journal of Industrial Textiles, 49(8), 1078-1099.
  • 14. Ahmad, F., Akhtar, K. S., Anam, W., Mushtaq, B., Rasheed, A., Ahmad, S., ... & Nawab, Y. 2023. Recent Developments in Materials and Manufacturing Techniques Used for Sports Textiles. International Journal of Polymer Science, Volume 2023 | Article ID 2021622 | https://doi.org/10.1155/2023/2021622.
  • 15. Chowdhury P., Samanta K. K., Basak S. 2014. Recent Development in Textile for Sportswear Application, International Journal of Engineering Research & Technology (IJERT) Volume 03, Issue 05.
  • 16. McCann, J. 2015. Environmentally conscious fabric selection in sportswear design. In Shishoo R. (Ed.). Textiles for sportswear (pp. 17-52). Woodhead Publishing.
  • 17. Umorfil launches new revolution in Nylon 6. (n.d.). Retrieved December 27, 2022, from https://www.umorfil.com/ download/future_textiles_Oct.pdf.
  • 18. Chinta, S.K., Gujar, P.D. 2013. Significance of Moisture Management forHigh Performance Textile Fabrics. International Journal of Innovative Research in Science, Engineering and Technology, 2, 814-819.
  • 19. Arumugam, V., Mishra, R., Militky, J., Davies, L., Slater, S. 2018. Thermal and water vapor transmission through porous warp knitted 3D spacer fabrics for car upholstery applications. The Journal of The Textile Institute, 109(3), 345–357.
  • 20. Arunraj A., Thambidurai A., Sundaresan S., Ajithkumar C., Akshaya S., Manikandan K. 2022. Development of Tri-Layered Knitted Fabric For Sports Wear Application, 8(2), IJARIIE-ISSN(O)-2395-4396 645-649.
  • 21. Blaga, M., Ciobanu, A. R., Marmarali, A., Ertekin, G., ÇELİK, P. 2015. Investigation of the physical and thermal comfort characteristics of knitted fabrics used for shoe linings.Tekstil ve Konfeksiyon, 25(2), 111-118.
  • 22. Buhai, C., Vlad, L., Budulan, C. 2014. Comfort Properties Of Functional Spacer Fabrics. Bulletin of The Polytechnic Institute of Iaşi, 1(4).
  • 23. Chen, C., Du, Z., Yu, W., Dias, T. 2018. Analysis of physical properties and structure design of weft-knitted spacer fabric with high porosity. Textile Research Journal, 88(1), 59–68.
  • 24. Chen, Q., Shou, D., Zheng, R., Tang, K. P. M., Fu, B., Zhang, X., Ma, P. 2021. Moisture and Thermal Transport Properties of Different Polyester Warp-Knitted Spacer Fabric for Protective Application. Autex Research Journal, 21(2), 182–191.
  • 25. Ertekin, G., Marmarali, A. 2011. Heat, air and water vapor transfer properties of circular knitted spacer fabrics. Tekstil ve Konfeksiyon, 21(4), 369-373.
  • 26. Liang, X., Yu, X., Dong, Z., Cong, H. 2021. Preparation and moisture management performance of double guide bar warp-knitted fabric based on special covering structure. Journal of Engineered Fibers and Fabrics, 16.
  • 27. Muthu Kumar, N., Thilagavathi, G., Periasamy, S. 2022. Development and characterization of warp knitted spacer fabrics for helmet comfort liner application. Journal of Industrial Textiles, 51(2_suppl), 2053S-2070S.
  • 28. Rajan, T. P., Souza, L. D., Ramakrishnan, G., Kandhavadivu, P., Vigneswaran, C. 2016. Influence of porosity on water vapor permeability behavior of warp knitted polyester spacer fabrics. Journal of Industrial Textiles, 45(5), 796–812.
  • 29. Suganthi, T., Senthilkumar, P. 2018. Moisture-management properties of bi-layer knitted fabrics for sportswear. Journal of Industrial Textiles, 47(7), 1447–1463.
  • 30. Udaya Krithika, S. M., Sampath, M. B., Jebastin Rajwin, A., Prakash, C., Senthil Kumar, M., Senthil Kumar, P. 2021. Moisture management properties of bi-layer knitted fabrics. Fibres & Textiles in Eastern Europe, 2 (146), 81-86.
  • 31. Babalik, E., Güneşoğlu, S., Ütebay, B., Bakadur, A. Ç., Güneşoğlu, C. 2021. A new objective method for comfort assessment of sportswear knitted fabrics.Tekstil ve Konfeksiyon, 31(4), 318-328.
  • 32. Ertekin, G. 2009. Yuvarlak Örme Maki̇neleri̇nde Üreti̇len Sandvi̇ç Kumaşların Genel Özelli̇kleri̇ni̇n Araştırılması [Master’s thesis]. Ege Üniversitesi.
  • 33. Palani, T. R., Prakash C., Ramakrishnan, G. 2019. An effect of fabrics thickness and structure on moisture management properties of 3D spacer fabrics. International Journal of Clothing Science and Technology, 31(6), 777–789.
  • 34. Sampath, M., Mani, S., Nalankilli, G. 2011. Effect of filament fineness on comfort characteristics of moisture management finished polyester knitted fabrics. Journal of Industrial Textiles, 41(2), 160–173.
  • 35. Coplan, M. J. 1953. Some Moisture Relations of Wool and Several Synthetic Fibers and Blends. Textile Research Journal, 23(12), 897–916.
  • 36. Fourt, L., Sookne, A.M., Frishman, D. and Harris, M. 1951. The rate of drying of fabrics. Textile Research Journal, 21(1), pp.26-33.
  • 37. Soares, G. M. B., Magalhães, A., Vasconcelos, A., Pinto, E., Santos, J. G. 2018. Comfort and antimicrobial properties of developed bamboo, polyester and cotton knitted spacer fabrics. Cellulose Chemistry and Technology, 1(2), 113–121.
  • 38. Mishra, R., Veerakumar, A., Militky, J. 2016. Thermo-physiological properties of 3D spacer knitted fabrics. International Journal of Clothing Science and Technology, 28(3), 328–339.
  • 39. Benltoufa, S., Fayala, F., BenNasrallah, S. 2008. Capillary rise in macro and micro pores of jersey knitting structure. Journal of Engineered Fibers and Fabrics, 3(3), 155892500800300305.
  • 40. Laing, R. M., Wilson, C. A., Gore, S. E., Carr, D. J., Niven, B. E. 2007. Determining the drying time of apparel fabrics. Textile Research Journal, 77(8), 583-590.
  • 41. Zhuang, Q., Harlock, S. C., Brook, D. B. 2002. Transfer wicking mechanisms of knitted fabrics used as undergarments for outdoor activities. Textile Research Journal, 72(8), 727-734.
Year 2024, Volume: 34 Issue: 3, 200 - 210, 30.09.2024
https://doi.org/10.32710/tekstilvekonfeksiyon.1260383

Abstract

References

  • 1. McCarthy, B.J. 2016. An overview of the technical textiles sector. In Horrocks A. R., Anand S.C. (Eds). Handbook of technical textiles, pp.120.
  • 2. Paul, R. (Ed.). 2019. High performance technical textiles. John Wiley & Sons.https://doi.org/10.1002/9781119325062.
  • 3. Rasheed, A. 2020. Classification of Technical Textiles. In: Ahmad, S., Rasheed, A., Nawab, Y. (Eds) Fibers for Technical Textiles. Topics in Mining, Metallurgy and Materials Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-49224-3_3.
  • 4. Kumar, C.S., Kumar, B.S., Rachel, D.A. 2020. Comfort aspects of sportswear base fabrics: a review. Journal of Emerging Technologies and Innovative Research, 7(2), pp.1071-1076.
  • 5. Uttam, D. 2013. Active sportswear fabrics. International Journal of IT, Engineering and Applied Sciences Research, 2(1), pp.34-40.
  • 6. Jhanji, Y. 2021. Sportswear: Acumen of Raw Materials, Designing, Innovative and Sustainable Concepts. Textiles for Functional Applications, 261.
  • 7. Senthilkumar, M., Sampath, M. B., Ramachandran, T. 2012. Moisture Management in an Active Sportswear: Techniques and Evaluation—A Review Article. Journal of The Institution of Engineers (India): Series E, 93(2), 61–68.
  • 8. Choudhary, A. K. 2020. The influence of yarn and knit structure on moisture management properties of sportswear fabric. Journal of The Institution of Engineers (India): Series E, 101, 77-90.
  • 9. Soydan, A. S., Karakan Günaydin, G., Ergezer, H., Palamutcu, S. 2021. Moisture management and antimicrobial performance of collagen peptide enriched knitted fabrics. The Journal of The Textile Institute, 112(7), 1023-1036.
  • 10. Suganthi, S., Pachiayappan, K. M., Priyalatha, S., Prakash, C. 2023. A Comparative Study on Moisture Management Properties of Natural and Manmade Cellulosic Fabrics Produced from Plain and Its Derivative Knitted Structures. Journal of Natural Fibers, 20(1).
  • 11. Duru, S. C., Göcek, İ. 2020. Assessing Water-Related Comfort Performance of Knitted Fabrics made of Rayon Microfibers and Lyocell Fibers for Intimate Wear. Tekstil ve Konfeksiyon, 30(3), 220-230.
  • 12. Çeven, E. K., Günaydın, G. K. 2021. Evaluation of Some Comfort and Mechanical Properties of Knitted Fabrics Made of Different Regenerated Cellulosic Fibres. Fibers and Polymers, 22(2), 567–577.
  • 13. Sathish Babu, B., Senthil Kumar, P., Senthil Kumar, M. 2020. Effect of yarn type on moisture transfer characteristics of double-face knitted fabrics for active sportswear. Journal of Industrial Textiles, 49(8), 1078-1099.
  • 14. Ahmad, F., Akhtar, K. S., Anam, W., Mushtaq, B., Rasheed, A., Ahmad, S., ... & Nawab, Y. 2023. Recent Developments in Materials and Manufacturing Techniques Used for Sports Textiles. International Journal of Polymer Science, Volume 2023 | Article ID 2021622 | https://doi.org/10.1155/2023/2021622.
  • 15. Chowdhury P., Samanta K. K., Basak S. 2014. Recent Development in Textile for Sportswear Application, International Journal of Engineering Research & Technology (IJERT) Volume 03, Issue 05.
  • 16. McCann, J. 2015. Environmentally conscious fabric selection in sportswear design. In Shishoo R. (Ed.). Textiles for sportswear (pp. 17-52). Woodhead Publishing.
  • 17. Umorfil launches new revolution in Nylon 6. (n.d.). Retrieved December 27, 2022, from https://www.umorfil.com/ download/future_textiles_Oct.pdf.
  • 18. Chinta, S.K., Gujar, P.D. 2013. Significance of Moisture Management forHigh Performance Textile Fabrics. International Journal of Innovative Research in Science, Engineering and Technology, 2, 814-819.
  • 19. Arumugam, V., Mishra, R., Militky, J., Davies, L., Slater, S. 2018. Thermal and water vapor transmission through porous warp knitted 3D spacer fabrics for car upholstery applications. The Journal of The Textile Institute, 109(3), 345–357.
  • 20. Arunraj A., Thambidurai A., Sundaresan S., Ajithkumar C., Akshaya S., Manikandan K. 2022. Development of Tri-Layered Knitted Fabric For Sports Wear Application, 8(2), IJARIIE-ISSN(O)-2395-4396 645-649.
  • 21. Blaga, M., Ciobanu, A. R., Marmarali, A., Ertekin, G., ÇELİK, P. 2015. Investigation of the physical and thermal comfort characteristics of knitted fabrics used for shoe linings.Tekstil ve Konfeksiyon, 25(2), 111-118.
  • 22. Buhai, C., Vlad, L., Budulan, C. 2014. Comfort Properties Of Functional Spacer Fabrics. Bulletin of The Polytechnic Institute of Iaşi, 1(4).
  • 23. Chen, C., Du, Z., Yu, W., Dias, T. 2018. Analysis of physical properties and structure design of weft-knitted spacer fabric with high porosity. Textile Research Journal, 88(1), 59–68.
  • 24. Chen, Q., Shou, D., Zheng, R., Tang, K. P. M., Fu, B., Zhang, X., Ma, P. 2021. Moisture and Thermal Transport Properties of Different Polyester Warp-Knitted Spacer Fabric for Protective Application. Autex Research Journal, 21(2), 182–191.
  • 25. Ertekin, G., Marmarali, A. 2011. Heat, air and water vapor transfer properties of circular knitted spacer fabrics. Tekstil ve Konfeksiyon, 21(4), 369-373.
  • 26. Liang, X., Yu, X., Dong, Z., Cong, H. 2021. Preparation and moisture management performance of double guide bar warp-knitted fabric based on special covering structure. Journal of Engineered Fibers and Fabrics, 16.
  • 27. Muthu Kumar, N., Thilagavathi, G., Periasamy, S. 2022. Development and characterization of warp knitted spacer fabrics for helmet comfort liner application. Journal of Industrial Textiles, 51(2_suppl), 2053S-2070S.
  • 28. Rajan, T. P., Souza, L. D., Ramakrishnan, G., Kandhavadivu, P., Vigneswaran, C. 2016. Influence of porosity on water vapor permeability behavior of warp knitted polyester spacer fabrics. Journal of Industrial Textiles, 45(5), 796–812.
  • 29. Suganthi, T., Senthilkumar, P. 2018. Moisture-management properties of bi-layer knitted fabrics for sportswear. Journal of Industrial Textiles, 47(7), 1447–1463.
  • 30. Udaya Krithika, S. M., Sampath, M. B., Jebastin Rajwin, A., Prakash, C., Senthil Kumar, M., Senthil Kumar, P. 2021. Moisture management properties of bi-layer knitted fabrics. Fibres & Textiles in Eastern Europe, 2 (146), 81-86.
  • 31. Babalik, E., Güneşoğlu, S., Ütebay, B., Bakadur, A. Ç., Güneşoğlu, C. 2021. A new objective method for comfort assessment of sportswear knitted fabrics.Tekstil ve Konfeksiyon, 31(4), 318-328.
  • 32. Ertekin, G. 2009. Yuvarlak Örme Maki̇neleri̇nde Üreti̇len Sandvi̇ç Kumaşların Genel Özelli̇kleri̇ni̇n Araştırılması [Master’s thesis]. Ege Üniversitesi.
  • 33. Palani, T. R., Prakash C., Ramakrishnan, G. 2019. An effect of fabrics thickness and structure on moisture management properties of 3D spacer fabrics. International Journal of Clothing Science and Technology, 31(6), 777–789.
  • 34. Sampath, M., Mani, S., Nalankilli, G. 2011. Effect of filament fineness on comfort characteristics of moisture management finished polyester knitted fabrics. Journal of Industrial Textiles, 41(2), 160–173.
  • 35. Coplan, M. J. 1953. Some Moisture Relations of Wool and Several Synthetic Fibers and Blends. Textile Research Journal, 23(12), 897–916.
  • 36. Fourt, L., Sookne, A.M., Frishman, D. and Harris, M. 1951. The rate of drying of fabrics. Textile Research Journal, 21(1), pp.26-33.
  • 37. Soares, G. M. B., Magalhães, A., Vasconcelos, A., Pinto, E., Santos, J. G. 2018. Comfort and antimicrobial properties of developed bamboo, polyester and cotton knitted spacer fabrics. Cellulose Chemistry and Technology, 1(2), 113–121.
  • 38. Mishra, R., Veerakumar, A., Militky, J. 2016. Thermo-physiological properties of 3D spacer knitted fabrics. International Journal of Clothing Science and Technology, 28(3), 328–339.
  • 39. Benltoufa, S., Fayala, F., BenNasrallah, S. 2008. Capillary rise in macro and micro pores of jersey knitting structure. Journal of Engineered Fibers and Fabrics, 3(3), 155892500800300305.
  • 40. Laing, R. M., Wilson, C. A., Gore, S. E., Carr, D. J., Niven, B. E. 2007. Determining the drying time of apparel fabrics. Textile Research Journal, 77(8), 583-590.
  • 41. Zhuang, Q., Harlock, S. C., Brook, D. B. 2002. Transfer wicking mechanisms of knitted fabrics used as undergarments for outdoor activities. Textile Research Journal, 72(8), 727-734.
There are 41 citations in total.

Details

Primary Language English
Subjects Wearable Materials
Journal Section Articles
Authors

Ayşe Berna Karabulut 0000-0002-9609-0316

Fatma Nergis 0000-0001-6010-6497

Cevza Candan 0000-0003-2007-5758

Early Pub Date September 30, 2024
Publication Date September 30, 2024
Submission Date March 8, 2023
Acceptance Date June 22, 2023
Published in Issue Year 2024 Volume: 34 Issue: 3

Cite

APA Karabulut, A. B., Nergis, F., & Candan, C. (2024). Some Comfort Properties of Spacer Fabrics from Recycled and Umorfil Polyamide Fibers for Sportswear Applications. Textile and Apparel, 34(3), 200-210. https://doi.org/10.32710/tekstilvekonfeksiyon.1260383

No part of this journal may be reproduced, stored, transmitted or disseminated in any forms or by any means without prior written permission of the Editorial Board. The views and opinions expressed here in the articles are those of the authors and are not the views of Tekstil ve Konfeksiyon and Textile and Apparel Research-Application Center.