KUMAŞ DALGA PLASTİKLİĞİ MEKANİZMASI ÜZERİNE BİR ÇALIŞMA

A STUDY ON THE MECHANISM OF FABRIC WAVE PLASTICITY

Test of pulling out yarns from fabrics was designed to study the mechanism of fabric “wave” plasticity. F that frictional forces per area in the warp and weft interlacing unit was proposed to characterize the frictional forces between yarns in fabrics. Results showed that the values of F of the fabrics with better fabric “wave” plasticity were bigger. Furthermore, in order to further understand the mechanism of fabric “wave” plasticity and test the application value of F, correlation analysis was carried out between F and fabric’s mechanical index which could represent fabric “wave” plasticity. It was found that F and the mechanical index had a high positive correlation. Therefore, it can be concluded that fabric “wave” plasticity is the reflection of frictional forces in fabrics. Moreover, the values of F could be used for characterizing the frictional forces in fabrics

Keywords:

“Wave” plasticity, Mechanism, Pull-out test Frictional force, Correlation,

PDF

___

1. Zhao L. H. and Wang F. M., 2012, “Evaluation Methods For Fabric “Wave” Plasticity”, Tekstil ve Konfeksiyon, Vol: (1), pp: 32-39.
2. Zhao L. H., Qin L., Wang F. M., 2009, “Factors Affecting Recovery of PTT Shape Memory Fabric to Its Initial Shape”, International Journal of Clothing Science and Technology, Vol: 21(1), pp: 64-73.
3. Taylor H. M., 1959, “Tensile and Tearing Strength of Cotton Cloths”, Journal of the Textile Institute, Vol: 50(1), pp: 161-187.
4. Sebastian S. A. R. D., Bailey A. I., Briscoe B. J., 1987, “Extensions, Displacements and Forces Associated with Pulling a Single Yarn from a Fabric”, Journal of Physics D: Applied Physics, Vol: 20(1), pp: 130-139.
5. Sebastian S. A. R. D., Bailey A. I., Briscoe B. J., 1986, “Effect of a Softening Agent on Yarn Pull-out Force of a Plain Weave Fabric”, Textile Research Journal, Vol: 56, pp: 604-611.
6. Chen H. L. and Yao M., 2001, “Analysis and Test on Interweave Resistance and Slippage Properties of Fabric”, Journal of Northwest Institute of Textile Science and Technology, Vol: 15(2), pp: 108-110.
7. Liu S. C. and Yao M., 2001, “Study on Loss Hair Proof for Rabbit Hair Fabrics”, Journal of Northwest Institute of Textile Science and Technology, Vol: 15(2), pp: 161-164.
8. Liu R. T., Yan H. J., Chu C. Y., 1997, “On the Pull-out Behaviour of Single Fibre from Powder Bonded Nonwovens”, Journal of Northwest Institute of Textile Science and Technology, Vol: 11(2), pp: 111-115.
9. Manoharan M. P., Sharma A., Desai A. V., 2009, “The Interfacial Strength of Carbon Nanofiber Epoxy Composite Using Single Fiber Pullout Experiments”, Nanotechnology, Vol: 20, pp: 1-5.
10. Nishikawa M., Okabe T., Hemmi K., 2008, “Micromechanical Modeling of the Microbond Test to Quantify the Interfacial Properties of Fiber-Reinforced Composites”, International Journal of Solids and Structures, Vol: 45, pp: 4098-4113.
11. Peled A., Zaguri E., Marom G., 2008, “Bonding Characteristics of Multifilament Polymer Yarns and Cement Matrices”, Composites: Part A, Vol: 39, pp: 930- 939.
12. Monteiro S. N., Aquino R. C. M. P., Lopes F. P. D., 2007, “Performance of Curaua Fibers in Pullout Tests”, Journal of Materials Science, Vol: 43(2), pp: 489-493.
13. Singh S., Shukla A., Brown R., 2004, “Pullout Behavior of Polypropylene Fibers from Cementitious Matrix”, Cement and Concrete Research, Vol: 34, pp: 1919-1925.
14. Peled A., Bentur A., Yankelevsky D., 1998, “Effects of Woven Fabric Geometry on the Bonding Performance of Cementitious Composites”, Advanced Cement Based Materials, Vol: 7(1), pp: 20-27.
15. Huang L. Q., Yu W. D., Yang X. H., 2001, “Fatigue Properties of Aramid Cord/Rubber Adhesion”, Journal of Dong Hua University (natural science), Vol: 27(2), pp: 87-95.
16. Yao M., Zhou J. F., Huang S. Z., 2000, “Textile Materials Science”, China Textile & apparel Press, Beijing, China, 279.
17. Zhao L. H. and Wang F. M., 2011, “Shape Recoverability Mechanism of “PTT Shape Memory Fabric””, Advanced Materials Research, Vol: 146-147, pp: 1898-1903.
18. Zhao L. H. and Wang F. M., 2011, “Evaluation Method for Fabric Non-iron Pleat Plasticity”, Advanced Materials Research, Vol: 291-294, pp: 1263-1266.