Study of the Relationship between the Drape and Characteristics of Fabric Using Graphic Methodology and the AHP Method

Hamdi, Thouraya; Ghith, Adel; Fayala, Faten

doi:10.5604/01.3001.0014.9294

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Tytuł artykułu

Study of the Relationship between the Drape and Characteristics of Fabric Using Graphic Methodology and the AHP Method

Autorzy

Hamdi Thouraya , Ghith Adel , Fayala Faten

Treść / Zawartość

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DOI

10.5604/01.3001.0014.9294

Warianty tytułu

Badanie związku między układalnością a właściwościami tkaniny z wykorzystaniem metodologii graficznej i metody AHP

Języki publikacji

Abstrakty

This research aimed to increase knowledge of the various responses of drape parameters to different selected fabric properties. The principal goal is to optimise the fabric properties and obtain the desired draping effect for garment textiles by the graphic method and AHP method. The goal is to establish a model that reflects the impact of fabric properties, such as the bending rigidity in the warp, weft and skew directions, shear stiffness, weight, and thickness on drape parameters such as the drape coefficient (CD), number of folds (NF), folding depth index (FDI) and draped distance ratio (DDR).

Badania miały na celu poszerzenie wiedzy na temat wpływu właściwości tkanin na ich układalność. Głównym celem pracy była optymalizacja właściwości tkanin i uzyskanie pożądanego efektu drapowania tekstyliów odzieżowych metodą graficzną i metodą AHP. Celem było stworzenie modelu, który odzwierciedla wpływ właściwości tkaniny, takich jak: sztywność zginania w kierunkach osnowy, wątku i skosu, sztywność ścinania, waga i grubość na parametry układania, takie jak: współczynnik układania (CD), liczba fałdy (NF), wskaźnik głębokości składania (FDI) i współczynnik odległości drapowania (DDR).

Słowa kluczowe

drape parameters response surface methodology fabric properties AHP

parametry układania metodologia powierzchni odpowiedzi właściwości tkaniny AHP

Wydawca

Sieć Badawcza Łukasiewicz - Łódzki Instytut Technologiczny

Czasopismo

Fibres & Textiles in Eastern Europe

Rocznik

2021

Tom

Vol. 29, no. 5 (149)

Strony

37--45

Opis fizyczny

Bibliogr. 26 poz., rys., tab.

Twórcy

autor

Hamdi Thouraya

thourayahamdi@yahoo.fr

Princess Nourah bint Abdulrahman University, College of Arts and Design, Department of Fashion and Textile Design, Saudi Arabia
ENIM, University of Monastir, LESTE, Thermal and Energetic Systems Studies Laboratory, Tunisia

https://orcid.org/0000-0003-2875-4325

autor

Ghith Adel

University of Monastir, Textile Materials and Processes Research Unit, Engineering School, Tunisia

https://orcid.org/0000-0003-1582-2771

autor

Fayala Faten

ENIM, University of Monastir, LESTE, Thermal and Energetic Systems Studies Laboratory, Tunisia

https://orcid.org/0000-0001-9125-875X

Bibliografia

1. Breen DE, House DH, Wozny MJ. A Particle-Based Model for Simulating the Draping Behavior of Woven Cloth. Text Res J. 1994; 64(11): 663-685.
2. Pattanayak AK, Ameersing L, Asimananda K. Prediction of Drape Profile of Cotton Woven Fabrics Using Artificial Neural Network And Multiple Regression Method. Text Res J. 2010; 81(6): 559-566.
3. Mooroka H, Niwa M. Relation Between Drape Coefficient and Mechanical Properties of The Fabric. Journal of Textile Institute1976; 22(3): 63-67.
4. Chattopadhyay R, Guha A. Artificial Neural Networks: Applications to Textiles. Textile Progress 2004; 35(1): 1-46.
5. Ghith A, Hamdi T, Fayala F. Prediction of Drape Coefficient by Artificial Neural Network. Autex Research Journal 2015; 15(4): 266-274.
6. Behera BK, Pattanayak AK, Mishra R. Prediction of Fabric Drape Behaviour Using Finite Element Method. Journal of Textile Engineering 2008; 54(4): 103-110.
7. Niwa M, Seto F. Relationship Between Drapability and Mechanical Properties of Fabrics. Journal of Textile Match Soc of Japan 1986; 39(11): 161-168.
8. Viswanaath S, Hayavadana J, Lakshminarayana J, Pradeepkumar, Kavitha A. New Methods of Assessment of Fabrics Drape. Journal of Textile and Apparel Technology and Management 2018; 10(3): 1-9.
9. Hamdi T, Ghith A, Fayala F. Fuzzy Logic Method for Predicting the Effect of Main Fabric Parameters Influencing Drape Phenomenon. Autex Research Journal 2020; 20(3): 220-227.
10. Hamdi T, Ghith A, Fayala F. A Principal Component Analysis Method for Predicting the Correlation Between Some Fabric Parameters and the Drape. AUTEX Research Journal 2014;14(1): 22-27.
11. Basu A, Chellamani KP, Ramesh PR. Fabric Engineering by Means of an Artificial Neural Network. Journal of the Textile Institute 2002; 93(3): 283-296.
12. Hu JL, Chan YF. Effect of Fabric Mechanical Properties on Drape. Textile Research Journal 1998; 68(1): 57-64.
13. Volle M. Analyse des données. 4ème éd, Economica, ISBN 2717832122; 1997.
14. Cusick GE. The Dependence of Fabric Drape on Bending and Shearing Stiffness. Journal of the Textile Institute 1965; 65(5): 596-606.
15. Benzecri J P. L’analyse des données. Paris Dunod; 1976.
16. Saaty TL. Relative Measurement and its Generalization in Decision Making: Why Pairwise Comparisons are Central in Mathematics for the Measurement of Intangible Factors – The Analytic Hierarchy/ Network Process. Review of the Royal Academy of Exact, Physical and Natural Sciences, Series A: Mathematics (RACSAM) 2008; 102(2): 251-318.
17. Saaty TL. Peniwati K. Group Decision Making: Drawing out and Reconciling Differences. Pittsburgh, Pennsylvania: RWS Publications. 2008; ISBN 978-1-888603-08-8.
18. NF G 07-150: 1984. Essais des étoffes, Détermination de la masse surfacique des tissus et des tricots. Normes Françaises.
19. Plattürk G G, Kiliç M. Measurement of Fabric Drape by the Methods Based on Image Analysis. Tekstil ve Mühendis. 2014; 21(94): 31-45.
20. Hamdi T, Ghith A, Fayala, F. Study of Drape Parameter Using Image Analysis. International Journal of Engineering Science and Technique 2013; 5(7): 1456-1464.
21. Jeong YJ, Philips DG. A Study of Fabric-Drape Behavior with Image Analysis Part I: Measurement, Characterization, and Instability. Journal of the Textile Institute 1998; 88(1): 59-69.
22. Box GEP, Wilson KB. On the Experimental Attainment of Optimum Conditions. Journal of the Royal Statistical Society: Series B. 1951; 13(1): 1-45.
23. Goupy JP. Experiment Plan for Response Surfaces. 1st ed Dunod; 1999.
24. Hamdi T, Ghith A, Fayala F. Characterization of Drape Profile Using Fuzzy-CMean (FCM) Method. Journal of Fibers and Polymers 2017; 18(7): 1401-1407.
25. Cusick GE. The Measurement of Fabric Drape. Journal of the Textile Institute 1968; 59(6): 253-260.
26. Hu J. Structure and Mechanics of Woven Fabrics. Woodhead Publishing 2004. ISBN-9781855739048.

Typ dokumentu

Bibliografia

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