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Badanie prędkości wątkowania w krosnach pneumatycznych przy zastosowaniu metody „fuzzy logic”
Języki publikacji
Abstrakty
In this study, a weft insertion system in air jet weaving looms was controlled by using fuzzy logic. The effects of yarn properties on weft yarn velocity along the tube have been investigated. The effects of yarn linear density (tex) and value of twist coefficient on the change in weft yarn velocity are determined by the fuzzy logic system in air jet weaving looms. Experimental data and expert knowledge has been used in the establishment of the fuzzy logic model and the construction of basic principles. The results obtained from the fuzzy logic model are compared with experimental results.
Badano proces wątkowania w krosnach pneumatycznych z dyszami powietrznymi za pomocą metody „fuzzy logic", ze szczególnym uwzględnieniem wpływu właściwości przędzy na prędkość wątku wzdłuż rury prowadzącej. Efekty wpływu gęstości liniowej przędzy i jej współczynnika skrętu na zmianę prędkości liniowej wątku były określane z wykorzystaniem metody „fuzzy logic", której model został opracowany na podstawie zależności teoretycznych i informacji doświadczalnych. Wyniki uzyskane za pomocą tak opracowanego modelu porównywano z wynikami eksperymentalnymi.
Czasopismo
Rocznik
Strony
29--33
Opis fizyczny
Bibliogr. 22 poz., rys.
Twórcy
autor
- University of Suleyman Demirel, Department of Textile Engineering, Isparta, Turkey, S.D.U. Textile Engineering Department, Isparta, Turkey
autor
- University of Suleyman Demirel, Department of Textile Engineering, Isparta, Turkey
autor
- University of Suleyman Demirel, Department of Textile Engineering, Isparta, Turkey
autor
- University of Suleyman Demirel, Department of Textile Engineering, Isparta, Turkey
Bibliografia
- 1. Adanur, S. and Mohamed, M. H., 1992, Analysis of Yarn Motion in Single-nozzle Air-Jet Filling Insertion, Part II: Experimental Validation of the Theoretical Models and Statistical Analysis, Journal of the Textile Institute, Vol. 83, No. 1 pp. 56-68.
- 2. Adanur, S., Walker, R. P., Broughton,R. M. and Beale, D. 1994, Weaving Technology - What Next?, Melliand Textilberichte, English/German, Vol. 75, No. 4, April, pp. 255-263.
- 3. Adanur, S., and Mohamed, M. H., 2001, Weft Insertion on Air-jet Looms: Velocity Measurement and Influence of Yarn Structure Part II Effects of System Parameters and Yarn Structure, Journal Textile Inst. No 2, 1988 systems, 121 (73-93).
- 4. Adanur, S. and Mohamed, M. H., 1992, Analysis of Yarn Motion in Single-nozzle Air-Jet Filling Insertion, Part I: Theoretical Models for Yarn Motion, Journal of the Textile Institute, Vol. 83, No 1, pp. 54-55.
- 5. Adanur, S., 1989, Dynamic Analysis of Single Nozzle Air-jet Filling Insertion, Ph.D. Thesis, NCSU.
- 6. Adanur, S., 1995, Effects of Fabric Structural Parameters on Fabric Modulus, Melliand Textilberichte, Vol. 76, No. 6, June (German/English), pp. 396-399.
- 7. Adanur, S., and Bahtiyarov, S., 1996, Analysis of Air Flow in Single Nozzle Air-Jet Filling Insertion: Corrugated Channel Model, Textile Research Journal, 66(6), pp. 401-406.
- 8. Adanur,S. and Mohamed, M. H., 1991, Analysis of Yarn Tension in Air-Jet Filling Insertion, Textile Research Journal, Vol.61, No. 5, pp. 253-258.
- 9. Bayhan, M., Kodaloglu, M., Cengiz, Y. and Kaplan, S., 2002, Drum ve Loop Sistemlerinde Atki Hareketinin Dinamik Modellenmesi ve Hizin Bulanik Mantikla Kontrolu, Tekstil Maraton Dergisi, Mart-Nisan. pp. 63-69.
- 10. Batra, S. K., Ghosh, T. K. and Zeidman, M., 1987, Dynamic Analysis of Yarn in Ring Spinning: An Integrated Approach, NCSU, March, pp. 256-262.
- 11. Branco, P. J., and Dente, J. A., 2001, “Fuzzy Systems Modelling in Practice”, Fuzzy Sets and System Vol. 121, pp: 73-93.
- 12. Hasegawa J., et al., 1981, A Study of Weft Insertion System on Air Jet Loom, Paper presented at ASME Textile Engineering conference, Raleigh, NC, pp. 358-45.
- 13. Kayacan, M. C., Dayık, M., 2001, Bulanık Mantık Yardımıyla Bornoz Beden Ölçü-lerinin Tespiti, Tekstil Maraton. Temmuz-Ağustos, pp. 65-72.
- 14. Kissling U., 1985, Experimental and Theoretical Analysis of Weft Insertion by Air-jet, Melliand Textilberichte. February, pp. 145-152.
- 15. Salama, M. M., 1984, Mechanics of Air Jet Filling Insertion, PhD Thesis, UMI.
- 16. Salama, M., Adanur, S., and Mohamed, M.H., 1987, Mechanics of a Single Nozzle Air-Jet Filling Insertion System, Part III: Yarn Insertion through Tubes, Textile Research Journal, Vol. 57, No.1, January, pp. 44-54.
- 17. Şen, Z. 1999, Mühendislikte Bulanık (Fuzzy) Modelleme İlkeleri, Ders Notları, İstanbul.
- 18. Vangheluwe, L., Puissant, P., Kiekens, P., 1997, Combination of Fuzzy Feedback Loops and Feedforward Adaptive Systems for Weft Insertion Control in Air-Jet Weaving; Proceedings of the 3rd International Conference on Design to Manufacture in Modern Industry, University of Maribor, Faculty of Mechanical Engineering, supported by the Slovenian Ministry of Science and Technology, Portoroz, Slovenia, 8-9 September, pp. 471-478.
- 19. Uno, M., et al., 1972, A Study on an Air Jet Loom with Substreams Added. Part 5: Analogous Experiment of Flow, J. Te-xtile Machinery Soc., Japan, Vol. 18, pp. 5-16.
- 20. Zadeh, L. A, 1965, Fuzzy Sets, Information and Control Vol. 8, pp. 338-353.
- 21. Zadeh, L. A., l978, Fuzzy Sets As A Basis For A Theory Of Possibility, pp 3-10.
- 22. http://www.sulzertextil.com/solutions/weaving/i_airjet.htm
Typ dokumentu
Bibliografia
Identyfikator YADDA
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