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Modification and Properties of Polypropylene Fibers Using Aluminosiloxane  

Yoon, Cheol-Soo (Department of Textile Engineering, Dankook University)
Ji, Dong-Sun (Department of Textile Engineering, Dankook University)
Publication Information
Fibers and Polymers / v.4, no.4, 2003 , pp. 210-214 More about this Journal
Abstract
Siloxylated polypropylene fibers composed of polypropylene (PP) and aluminosiloxane (AS) were prepared by melt blending followed by spinning. The effects of blend compositions on the thermal behaviors, surface and tensile properties of PP/AS blend fibers were investigated by DSC, WAXD, SEM, static honestometer, etc. The heat of fusion of PP/AS blends decreased with increasing AS contents. In addition, the peak intensity of PP/AS blends in X-ray diffraction patterns decreased with increasing AS contents. It was observed that the silicone molecules exist and well distribute on the surface of siloxylated polypropylene fibers. From the results of the half-life period measurements, the anti-static properties of PP fibers siloxylated with AS was found to be significantly modified.
Keywords
Siloxylated polypropylene; Aluminosiloxane; Melt blending; Thermal behaviors; Surface properties;
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1 J. Karger-Kocsis, 'Polypropylene Structure, Blends and Composites', Chap. 9, p.273, Chapmann & Hall, London, 1995
2 H. H. Cho and K. H. Kim, J. Korean Fiber Soc., 35, 263 (1998)
3 F. Sundardi, J. Appl. Polym. Sci., 22, 3163-3176 (1978)   DOI   ScienceOn
4 M. M. Alger, 'Polymer Science Dictionary', pp.362-363, Elsevier Sci. Pub., New York, 1989
5 L. H. Sperling, 'Introduction to Physical Polymer Science', 2nd ed., pp.66-71, John Wiley & Sons Inc., New York, 1991
6 D. R. Paul and S. Newman, 'Polymer Blends', Vol. 2, p.373, Academic Press, New York, 1978
7 T. Suzuki, H. Tanaka, and T. Nish, Polymer, 30, 1287 ( 1989)   DOI   ScienceOn
8 J. H. Lee, S. G. Lee, and K. Y. Choi, Polym. Sci. Technol., 9, 200 (1998)
9 P. K. Pak, H. W. Kim, K. K. Na, S. S. Kim, M. C. Lee, and C. J. Park, J. Korean Fiber Soc., 36, 936 (1998)
10 J. M. Zeigler, 'Silicone-Based Polymer Science A Comprehensive Resource', pp.715-716, American Chemical Society, Washington DC, 1990
11 Y. Jois and J. Harrison, Rev. Macromol. Chem. Phys. C, 36, 433 (1996)
12 D. W. Kang and Y. M. Kim, Prospective of Industrial Chemistry, 2, 3 (1999)
13 L. Lamas, G. A. Medez, A. J. M$\ddot{u}$ller, and M. Pracella, Eur. Polym. J., 34, 1865-1870 (1998)   DOI   ScienceOn
14 J. J. Jeung, T. W. Son, S. K. Lim, B. H. Moon, and S. S. Kim, J. Korean Fiber Soc., 34, 16 (1997)
15 S. Makhija, E. M. Pearce, T. K. Kwei, and F. Lily, Polym. Eng. Sci., 30,13-21 (1990)   DOI
16 M. J. Owen and T. C. Kendrick, Macromolecules, 3, 458–461 (1970)   DOI