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Określanie szorstkości powierzchni tkanin przy zastosowaniu techniki projekcji nierówności typu Moiré
Języki publikacji
Abstrakty
In this paper, a new approach is proposed for characterizing the surface roughness of woven fabrics. This approach is based on the fringe projection moiré techniques and analysis of the moiré pattern, which is caused by the interaction between the Ronchi grating and the periodic structure of a woven fabric. In this study, an image processing procedure was employed and a new parameter called the “roughness index” was defined for quantifying the surface roughness. The results obtained from the moiré technique were validated by a set of pair-comparison subjective tests. The proper correlation, with an average R-squared value of 0.9087, between subjective and objective tests confirmed the accuracy, correctness and efficiency of the new method. Statistical analysis of the roughness results clarified that the effect of fabric structural parameters such as the weave structure and weft density is significant in the confidence range of 95%.
W pracy zaproponowano nową metodę charakteryzacji szorstkości powierzchni tkanin. Jest ona oparta na projekcji zagnieceń techniką Moiré i analizy otrzymanych wzorów uzyskanych poprzez interakcje pomiędzy siatką Ronchiego i okresową strukturą tkaniny. Opracowano procedurę analizy obrazu i zdefiniowano nowy parametr nazwany‚”indeksem szorstkości” dla ilościowej oceny szorstkości powierzchni. Wyniki otrzymane za pomocą techniki Moiré porównywano z wynikami subiektywnych testów. Uzyskano korelację na poziomie R2 = 0,9087 pomiędzy testami subiektywnym i obiektywnymi, co potwierdza prawidłowość zaproponowanej metody. Statystyczna analiza wyników wykazała, że efekt struktury tkaniny, jak rodzaj splotu i gęstość wątku jest istotna na poziomie 95%.
Czasopismo
Rocznik
Strony
76--84
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- Department of Textile Engineering, Amirkabir University of Technology, Tehran, Iran
autor
- Department of Textile Engineering, Amirkabir University of Technology, Tehran, Iran
autor
- Department of Textile Engineering, Amirkabir University of Technology, Tehran, Iran
autor
- Optic, Laser & Photonic Research Center, Amirkabir University of Technology, Tehran, Iran
Bibliografia
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- 4. Bertaux E, Lewandowski M, Derler S. Relationship between Friction and Tactile Properties for Woven and Knitted Fabrics. Text. Res. J. 2007; 77(6): 387-395.
- 5. Militky J, Bajzik V. Surface Roughness of Heat Protective Clothing Textiles. Int. J. Cloth. Sci. Tech. 2003; 15(3/4): 258-267.
- 6. Lee S, Kamijo M, Honywood M, Nishimatsu T, Shimizu Y. Analysis of Finger Motion in Evaluating the Hand of a Cloth Using a Glove- type Measurement System. Text. Res. J. 2007; 77(1): 13-19.
- 7. Yujie H, Jiyong H, Qun Z, Xin D, Xudong Y. Relationship between Tactual Roughness Judgment and Surface Morphology of Fabric by Fingertip Touching Method. Fiber Polym. 2013; 14(6): 1024-1031.
- 8. Bueno M, Durand B, Renner M. A Non Contact Measurement of the Roughness of Textile Fabrics. Exp. Tech. 2000; 24(2): 23-27.
- 9. Bueno JM, Renner MA. Warm- Cool Feeling Relative to Tribological Properties of Fabrics. Text. Res. J. 2001; 71(9): 806-811.
- 10. Kang T, Kim S, Sul I. Fabric Surface Roughness Evaluation Using Wavelet- Fractal Method. Part I: Wrinkle, Smoothness and Seam Pucker. Text. Res. J. 2005; 75(11): 751-760.
- 11. Sul I, Kyung Hwa H, Kang T. Surface Roughness Measurement of Nonwovens Using Three- Dimensional Profile Data. Text. Res. J. 2006; 76(11): 828-834.
- 12. Tourlonias M, Bigue L, Bueno M. Polarimetric Measurements of Fabric Surfaces. Opt. Eng. 2007; 46(8): 083602 (1-9).
- 13. Mousa A, Dupont D, Steen D, Zeng X. Structure Analysis and Surface Simulation of Woven Fabrics Using Fast Fourier Transform Technique. J. Text. Inst. 2010; 101(6): 556- 570.
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Bibliografia
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