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Optymalizacja siły rozrywania dzianin przy zastosowaniu metody Taguchi
Języki publikacji
Abstrakty
In this paper, the bursting strength of knitted fabrics was optimised using the Taguchi experiment design technique, which is a recently famous approach. In the evaluations, analyses of variance (ANOVA) and the signal to noise ratio were used. 9 experiments were performed with respect to the L9 orthogonal design for the Taguchi approach. The results show a considerable improvement in the S/N ratio as compared to the initial condition. With the Taguchi processes, we can easily determine optimum conditions for maximising the bursting strength of knitted fabrics with simple experiments.
Przeprowadzono optymalizację siły rozrywania dzianin stosując metodą Taguchi. Dla oceny uzyskanych wyników przeprowadzono analizę wariancji za pomocą testu ANOVA oraz analizę stosunku sygnału do szumu. Przeprowadzono 9 eksperymentów uwzględniając ortogonalny schemat dostosowany do metody Taguchi. Wyniki wykazały znaczne polepszenie stosunku sygnału do szumu w porównaniu do warunków początkowych. Stosując metodę Taguchi możemy łatwo wyznaczyć optymalne warunki konieczne dla uzyskania maksymalnej siły rozrywania dzianin za pomocą łatwych eksperymentów.
Czasopismo
Rocznik
Strony
78--83
Opis fizyczny
Bibliogr. 27 poz., fig., tab.
Twórcy
autor
- The University of Cukurova, Department of Textile Engineering, 01330 Adana, Turkey
autor
- The University of Cukurova, Department of Textile Engineering, 01330 Adana, Turkey
Bibliografia
- 1. Tou N.A.; An Investigation of Arcing in Two Structure Weft Knit Fabrics, Msc Thesis, North Carolina State University, Textile & Apparel Technology & Management, 2005.
- 2. Mavruz S., Oğulata R.T.; Statistical Investigation of Properties of Knitted Fabrics Made of Ring and Compact Yarns, Journal of Knitting World, pp. 60-65, (in Turkish), September/October, 2007.
- 3. Singh S., Shan H.S., Kumar P.; Parametric Optimization of Magnetic-FieldAssisted Abrasive Flow Machining by the Taguchi Method, Quality and Reliability Engineering International, 18, pp. 273-283, 2002.
- 4. Park C.K., Ha J.Y.; “A Process for Optimizing Sewing Conditions to Minimize Seam Pucker Using the Taguchi Method, Textile Research Journal, 75(3), 2005, pp. 245-252.
- 5. Taguchi G., Chowdhury S., Wu Y.; Taguchi’s Quality Engineering Handbook. John Wiley&Sons, Inc. ISBN 0-471-41334-8. pp. 1662, 2005.
- 6. Zeydan M.; Modelling the Woven Fabric Strength Using Artificial Neural Network and Taguchi Methodologies, International Journal of Clothing Science and Technology, Vol. 20, No. 2, p. 104-118, 2008.
- 7. Khosla A., Kumar S., Aggarwal K.K.; Identification of Strategy Parameters for Particle Swarm Optimizer Through Taguchi Method, Journal of Zhejiang University Science A, 7(12), 2006, pp. 1989-1994.
- 8. Introduction the Taguchi Method, http://www.ee.iitb.ac.in/~apte/CV_PRA_TAGUCHI_INTRO.htm., 2008.
- 9. Roy R.K.; Design of Experiments Using the Taguchi Approach, A Wiley-Interscience Publication, ISBN 0-471-36101-1. p. 538, 2001.
- 10. Taguchi Approach to Design Optimization for Quality and Cost: An Overview, http://amelia.db.erau.edu/nasacds/200410Disc1/research/20040121019_2004117340.pdf, 2008.
- 11. Raymond H.M., Andre I.K., Geoffrey V., Response Surface Alternatives to the Taguchi Robust Parameter Design Approach, The American Statistician, Vol. 46, No. 2, 1992, pp. 131-139.
- 12. Palanikumar K.; Cutting Parameters Optimization for Surface Roughness in Machining of GFRP Composites Using Taguchi’s Method, Journal of Reinforced Plastics and Composites, Vol. 25, No. 16, 2006 pp. 1739-1751.
- 13. Ross P.J.; Taguchi Techniques for Quality Engineering. Mcgraw-Hill International Editions, ISBN 0-07-114663-6. pp. 329, 1996.
- 14. Cheng K.P.S., Li C.H.L.; JetRing Spinning and Its Influence on Yarn Hairiness. Textile Research Journal, Vol. 72, 2002. pp. 1079-1087.
- 15. Ishtiaque S.M., Salhotra K.R.; Study of Effect of Spinning Process Variables on the Packing Density of Ring, Rotor and Air-Jet Yarns Using the Taguchi Method, Autex Research Journal, Vol. 6, No. 3, 2006, pp. 122-135.
- 16. Ishtiaque S.M., Salhotra K.R., Kumar A.; Analysis of Spinning Process Using the Taguchi Method. Part II: Effect of Spinning Process Variables on Fibre Extent and Fibre Overlap in Ring, Rotor and Air jet Yarns. Journal of the Textile Institute, Vol. 97. No. 4, 2006, pp. 285-294.
- 17. Kumar A., Ishtiaque S.M., Salhotra K.R.; Analysis of Spinning Process Using the Taguchi Method. Part III: Effect of Spinning Process Variables on Migration Parameters of Ring, Rotor and Air-jet Yarn. Journal of the Textile Institute, Vol. 97. No. 5, 2006, pp. 377-384.
- 18. Kumar A., Ishtiaque S.M., Salhotra K.R.; Analysis of Spinning Process Using the Taguchi Method. Part IV: Effect of Spinning Process Variables on Tensile Properties of Ring, Rotor and Air-jet Yarns. Journal of the Textile Institute, Vol. 97. No. 5. pp. 385-390, 2006.
- 19. Kumar A., Salhotra K.R., Ishtiaque S.M.; Analysis of Spinning Process Using the Taguchi Method. Part V: Effect of Spinning Process Variables on Physical Properties of Ring, Rotor and Air-jet Yarns. Journal of the Textile Institute, Vol. 97. No. 6, 2006, pp. 463-473.
- 20. Salhotra K.R., Ishtiaque S.M., Kumar A.; Analysis of Spinning Process Using the Taguchi Method. Part I: Effect of Spinning Process Variables on Fibre Orientation and Tenacities of Sliver and Roving. Journal of the Textile Institute, Vol. 97. No. 4, 2006, pp. 271-284.
- 21. Cho D.H., Jeong Y.; Analysis of Spinning Process Parameters on Development of Spun-Dyed PET Yarn Using the Taguchi Method. Journal of Applied Polymer Science, Vol. 102, 2006, pp. 1419-1427.
- 22. Webb C.J., Waters G.T., Thomas A.J., Liu G.P., Thomas C.; The use of Taguchi Design of Experiment Method in Optimizing Splicing Conditions for a Naylon 66 Yarn. Journal of the Textile Institute, Vol. 98, No. 4, 2007, pp. 327-336.
- 23. BS EN ISO 13938-2, Textiles – Bursting Properties of Fabrics, Part:2 Pneumatic Method for Determination of Bursting Strength and Bursting Distension, 1999.
- 24. Borecki J., Hackiewicz H., Koziol G., Sitek J., Codreanu N.C.; Parameters of UV Laser Microvia Formation Based on Taguchi Method of Experiment Design, 26th International Spring Seminar on Electronics Technology, pp. 112-116. May 8-11, Slovak Republic, 2003.
- 25. Dubey A.K., Yadava V.; Simultaneous Optimization of Multiple Quality Characteristics in Laser Beam Cutting Using Taguchi Method. International Journal of Precision Engineering and Manufacturing, Vol 8, No. 4, 2007, pp. 10-15.
- 26. Savaşkan M.; Comparative Analysis of Design of Experiment Techniques on the Performance Evaluation and Optimization of Hard Ceramic Coated Drill Bits, Ph.D. Thesis. İstanbul Technical University, Inst. of Natural and Appl. Sci., (in Turkish), pp. 277, 2003.
- 27. Error and Type of Errors, jeofizik.ankara. edu.tr/download/notlar/JFM224/Konu1. pdf, (in Turkish), 2008.
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Bibliografia
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