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Badania współczynnika tarcia tkanin gofrowanych
Języki publikacji
Abstrakty
At present, seersucker woven fabrics are increasingly used for the manufacturing of clothing. These fabrics are created in the weaving process as a result of the different tension of two sets of warp threads: basic and puckering. Seersucker woven fabrics applied in properly designed clothing have an ability to massage the body while wearing such clothing. In order to conduct a detailed analysis of the massaging process during the clothing usage, it is necessary to examine the phenomena occurring during the massaging. Friction is one of the most important phenomena influencing the massaging process. Due to the nature of seersucker woven fabrics, measurement of the friction coefficient is difficult. This paper presents the problems related to measurement of the coefficient of friction for an exemplary seersucker fabric. The work contains a description of the measurement method proposed and the consequences resulting from its application.
Obecnie coraz więcej tkanin gofrowanych jest wykorzystywanych do produkcji odzieży. Tkaniny te powstają w procesie tkania w wyniku różnego napięcia dwóch zestawów nitek osnowowych. Tkaniny gofrowane, stosowane w odpowiednio zaprojektowanej odzieży, mają zdolność masażu ciała podczas użytkowania odzieży. Tarcie jest jednym z najważniejszych zjawisk wpływających na proces masażu. Ze względu na charakter tkanin gofrowanych, pomiar współczynnika tarcia jest trudny. W artykule przedstawiono problemy związane z pomiarem współczynnika tarcia dla przykładowej tkaniny gofrowanej. Praca zawiera opis proponowanej metody pomiaru oraz konsekwencje wynikające z jej zastosowania.
Czasopismo
Rocznik
Strony
36--42
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
autor
- Lodz University of Technology, Institute of Machine Tools and Production Engineering, Faculty of Mechanical Engineering, Lodz, Poland
autor
- Lodz University of Technology, Institute of Architecture of Textiles, Faculty of Material Technologies and Textile Design, Lodz, Poland
autor
- Lodz University of Technology, Institute of Machine Tools and Production Engineering, Faculty of Mechanical Engineering, Lodz, Poland
Bibliografia
- 1. Bhattacharjee D, Kothari VK. Heat transfer trough woven textiles. International Journal of Heat and Mass Transfer 2009; 52: 2155-2160.
- 2. Hes L. Alternative Methods of Determination of Water Vapour Resistance of Fabrics by Means of a Skin Model. Proceedings of the 3rd European Conference on Protective Clothing and NOKOBETEF 8, Gdynia, 2006.
- 3. Tokarska M, Gniotek K. Determination of Woven Fabric Impact Permeability Index. Indian Journal of Fibre & Textile Research 2009; 34: 239-244.
- 4. Matusiak M. Thermal Insulation of Woven Fabrics for Clothing. Monograph. Works of Textile Research Institute. Special edition. Lodz: Textile Research Institute; 2011.
- 5. Lumelsky VJ, Shur MS, Wagner S. Sensitive Skin. IEEE Sensors Journal. 2001; 1, 1: 41-51.
- 6. Matusiak M, Wilk E, Zieliński J. Seersucker woven fabrics with therapeutic properties. FIBRES & TEXTILES in Eastern Europe 2018; 26, 5(131): 54-58. DOI: 10.5604/01.3001.0012.2531.
- 7. de Godoy JMP, de Godoy MFG. Treatment of cellulite based on the hypothesis of a novel pathophysiology. Clinical, Cosmetic and Investigational Dermatology 2011; 4: 55-59.
- 8. Alizadeh Z, Halabchi F, et al. Review of the mechanisms and effects of noninvasive body contouring devices on cellulite and subcutaneous fat. Int J Endocrinol Metab. 2016.
- 9. Matusiak M. Investigation of Woven Fabrics for Anticellulite Clothing. Proceedins of Clotech 2010 Conference, Radom, 2010.
- 10. Ningtao Mao, Yiyi Wang, Jianguo Qu. Smoothness and Roughness: Characteristics of Fabric-to-Fabric Self-Friction Properties. Proceedings of TIWC; 2016; 25-28 April, Poznan.
- 11. Kang TJ, Kim SC, Sul IH, Youn JR, Chung K. Fabric Surface Roughness Evaluation Using Wavelet-Fractal Method. Part I: Wrinkle, Smoothness and Seam Pucker. Textile Research Journal 2005; 75(11): 751-760.
- 12. Militky J. Bajzík V. Surface roughness of heat protective clothing textiles. International Journal of Clothing Science and Technology 2003; 15, ¾: 258-267.
- 13. Carr WW, Posey JE, Tincher WC. Frictional Characteristics of Apparel Fabrics. Textile Research Journal 2007; 59, 3: 129-13.
- 14. Wilson D. A Study of Fabric-on-Fabric Dynamic Friction. Journal of Textile Institute 1963; 54.
- 15. Saville BP. Physical testing of Textile. Woodhead Publishing Limited, 1999.
- 16. Frydrych I, Matusiak M. Effect of woven fabrics on the fabric hand of cotton and CO/PE fabrics assessed on the Instron tensile tester. In: Behery HM. Effect of mechanical and physical properties on fabric hand. Woodhead Publishing in Textiles. Woodhead Publishing Ltd.; 2005: 239-286.
- 17. Gupta BS, Ajayi JO, Kutsenko M. Experimental methods for analyzing friction in textiles. In: Gupta BS. Friction in textile materials. Woodhead Publishing Limited, Cambridge England 2008: 174-221.
- 18. De Boss A. Concepts and understanding of fabric hand. In: Behery HM. Efefct of mechanical and physical properties on fabric hand. Woodhead Publishing in Textiles, Woodhead Publishing Ltd. 2005: 11-44.
- 19. Matusiak M, Frącczak Ł. Influence of Kind of Weft Yarn on Properties of the Seersucker Woven Fabrics. Autex Research Journal 2016; 16, 4: 214-221.
- 20. Sang-Hyup Lee, Hyoung-Jin Kim, Young- Chan Ko, Jin-Hee Lee, Jung-Yoon Park, Byoung-Geun Moon, Jong-Moon Park. Characterization of Surface Properties of Hygiene Paper by Fractal Dimension Analysis Technique. Journal of Korea Technical Association of the Pulp and Paper Industry 2017; 49, 6: 90-101.
- 21. Frącczak L, Matusiak M. Investigation of Surface Friction of the Seersucker Fabrics. In: Frydrych I, Bartkowiak G, Pawłowa M. Innovations in Clothing 3D Design, Products, Fashion, Technologies and Testing of Clothing Materials. Lodz University of Technology. Lodz. 2017: 235-249.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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