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Warianty tytułu
Przewidywanie przepuszczalności powietrza na podstawie parametrów struktury splotów
Języki publikacji
Abstrakty
Przepuszczalność powietrza tkanin powinna być przedmiotem modelowania w celu wykazania wpływu poszczególnych parametrów strukturalnych tkaniny. Jako parametry tkaniny przyjęto współczynniki CFF i FYF. Równania wielokrotnej regresji przepuszczalności powietrza wyprowadzone zostały na podstawie parametrów strukturalnych splotu, przewidywane wartości odpowiadały wartościom pomierzonym eksperymentalnie przy pomocy systemu FAST.
In this study, air permeability of woven fabrics is predicted from the parameters of weave structures. Air permeability is an important property of fabrics and has a decisive influence on the utilisation of fabric for some technical and clothing applications. There is no doubt that predetermination of the air permeability in woven fabric is vital, and modelling the effective parameters shows the role of the factors as well as the prediction of the property. To promote the design of woven fabrics, we can define the crossing over firmness factor (CFF) and floating yarn factor (FYF) as the parameters of the weave structures for predicting air permeability values. All the parameters are related to air permeability. Multiple regression equations of air permeability are derived from those parameters of weave structures and the values predicted almost exactly agree with the values measured from the FAST system.
Czasopismo
Rocznik
Strony
78--81
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
Bibliografia
- 1. Goodings AG, Air Flow Through Textile Fabric.. Textile Research Journal 1964; 25: 713-724 .
- 2. Szosland J. Identifcation of Structure of Inter-Thread Channels in Models of Woven Fabrics. Fibres & Textile in Eastern Europe 1999; 7, 2(25): 41-45.
- 3. Nataajan K. Air Permeability of Elastomeric Fabrics as a function of Uniaxial Tensile Strain. University of North Carlina.
- 4. Backer S. The relationship Between the Structural Geometry of a textile Fabric and its Physical Properties Textile Research Journal 1948; 18(x): 650-658.
- 5. Backer S. The Relationship between the Structural Geometry of a Textile Fabric and Its Physical Properties, Part 4: Interstice Geometry and Air Permeability. Textile Research Journal 1951; 21: 703-714.
- 6. Sieminski MA., and Hotte GH. The Porosity of the Textile materials. Rayon Text Mo 1944; 25(12): 608-610.
- 7. Burleigh EG, Wakeham H, Honold E, and Skau EL. Pore Size Distribution in Textiles. Textile Research Journal, 1949: 547-555.
- 8. Robertson AF, Air porosity of open weave fabrics: Part I: Metallic meshes. Textile Research Journal, 1950; December, P838.
- 9. Hoerner SF, Aerodynamic properties of screen and fabrics. Textile Research Journal 1952; April, P274.
- 10. Saidenov GB. Methods of Calculating the Air Permeability of Fabrics as a Functions of Their Structure, Candidate Dissertation, Moscow Textile Institute, Moscow, 1965.
- 11. Lawrence CA. Predictive Modeling of fow through Woven fabrics, TechniTex Core Research, Leeds University.
- 12. Olšauskienė A, Milašius R. Infuence of Fabric Structure on Air Permeability. In: International Conference The Textiles: Research in Design and Technology. 2000; 201-206.
- 13. Milašius V., An Integrated Structure Factor for Woven Fabrics Part I: Estimation of the Weave, Journal of the Textile Institute 2000; 91, 2: 268-270.
- 14. Milašius V. „An Integrated Structure Factor for Woven Fabrics, Part II: Fabricsfrmness Factor”, Journal of the Textile Institute 2000; 91: 2: 277-284.
- 15. Ogulata RT. Air Permeability of Woven Fabrics”, Journal of Textile and Apparel, Technology and Management 2006; 5, 2 summer.
- 16. Fatahi I, Alamdar Yazdi A. Assessment of the Relationship between Air Permeability of Woven Fabrics and Its Mechanical Properties, Fibres & Textiles in Eastern Europe 2010; 18, 6(83): 68-71.
- 17. Ogawa Y., Applied Clothing Materials—Consumption Performance Koseikan, Japan, 1967, p.65.
- 18. Morino H, Matsudaira M, Furutani M. Predicting Mechanical Properties and Hand Values from the parameters of Weave Structure, Textile Research Journal 2005; 18(x): 252-257.
- 19. Milasius V, Katunskis J, Milasius A. Comments on Predicting Mechanical Properties and Hand Values from the Parameters of Weave Structure, Textile Research Journal 2007; 77(3): 184-185.
- 20. Matsudaira M. Reply to Comments on Predicting Mechanical Properties and Hand Values from the Parameters of Weave Structure, Textile Research Journal 2007; 77(3): 186.
- 21. Fukui S, Yamaoka A, Okada F, Orii M. Introduction to Stochastics Sangyou Tosho Co., Tokyo, 1996.
- 22. Hasegawa K. Easy to Understand Multivariate analysis. Gijyutsu Toron Co., Japan, 2002, p. 42.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0023-0003