Chemistry, Physics and Technology of Surface

ISSN 2518-1238 (Online), ISSN 2079-1704 (Print)

The peculiarities of flowing and structure formation processes in polymer mixture melts with matrix polymer of various chemical nature have been investigated. It has been shown that for polypropylene/plasticized polyvinylalcohol (PP/PVA) mixtures PP, microfibers are the preference structure type even at components ratio 50:50. For other polymer mixture this ratio is the region of phase change. The value of interface tension for PP/PVA melts is lower in comparison with those for other polymer mixtures. The earlier found regularity that swelling values of extrudates characterize phenomenon of the specific fibre formation. Is not confirmed for PP/PVA mixtures. It has been found that methylsilica additives decrease melt viscosity and improve the mixture melt capability to longitudinal deformation. This permit to regulate of structure-formation processes in matrix polymers with various chemical nature.

mixture of polymers; structure formation; viscosity; interface tension

1. Glubisch P., Ereklei V., Kleiner Yu., Rezanova N., Tsebrenko M., Kerner S., Omel'chenko V., Turchanenko Yu.The Highly Technological, Concurentable and Ecologically Oriented Fibrous Materials and Related Goods.(Kyiv: Aristei, 2007). [in Ukrainian].

2. Utracki L., Bakerdjiane Z., Kamal M. A method for the measurement of the true die swell of polymer melts.J. Appl. Polymer Sci. 1975. 19(2): 481. https://doi.org/10.1002/app.1975.070190213

3. Tomotika S. On the Instability of a Cylindrical Thread of a Viscous Liquid Surrounded by Another Viscous Fluid.Proc. Roy. Soc. (London). 1935. A(150): 322.

4. Starita J. Microstructure of melt blended polymer systems. Trans. Soc. Rheol. 1972. 16(2): 339.https://doi.org/10.1122/1.549247

5. Han C. Multiphase flow in polymer processing. (New York: Academic Press, 1981).

6. Utracki L., Dumoulin M. Polypropylene alloys and blends with thermoplastics. Polypropylene: Structure, Blends and Composites. (London: Chapman and Hall, 1994).

7. Kuleznev V. The Polymer Blends. (Moscow: Khimiya, 1980). [in Russian].

8. Zaikin A., Bobrov G. Compatibilization of blends of incompatible polymers via filling. Polymer Sci. Ser. A.2012.54(8): 1275. [in Russian]. https://doi.org/10.1134/S0965545X12070085

9. Zaikin A., Galikhanov M., Zverev A., Arkhireev V. Filler Influence on Mutual Component Solvation in Polymer Blend. Vysokomol. Soed. Issue A. 1998. 40(5): 847. [in Russian]. https://doi.org/10.1134/S0965545X12070085

10. Tsebrenko M., Rezanova V., Kartel M., Mel'nyk I., Prykhod'ko G. Properties of Polypropylene Microfibers Filled with Carbon Nanotubes and their Compositions with Compatibilizer. Chemistry, Physics and Technology of Surface. 2013. 4(3): 305. [in Ukrainian].

11. Tsebrenko M., Rezanova V., Tsebrenko I. The Polypropylene Microfibers with filler in nanostate. Chemistry and Chemical Technology. 2010. 4(3): 253.

12. Lipatov Yu., Nesterov A., Ignatova T. The Themodynamical and Rheological Properties of Polymer Blended Melts. Vysokomol. Soed. Issue A. 1982. 24(3): 549. [in Russian].