COPPER-CONTAINING NANOCOMPOSITES BASED ON ISOTACTIC POLYPROPYLENE AND ETHYLENE PROPYLENEDIENE RUBBER
Abstract
New nanocomposites based on polypropylene and ternary ethylene-propylene rubber have been obtained using a copper-containing nanofiller obtained by a mechanochemical method, stabilized by a polymer matrix of high-pressure polyethylene, which have improved strength characteristics, resistance to water and various chemical media, as well as high values of the melt flow rate, which indicates the possibility of processing it by high-speed injection molding and extrusion.
References
2.Suzdalev. I.P., Suzdalev P.I. Nanoclusters and nanocluster systems. // Advances in chemistry. 2001. T. 70. No. 3. p. 203-240 [Suzdalev I.P., Suzdalev P.I. Nanoclusters and nanocluster systems. Russ.Chem. Rev. 2001; 70 (3): 203-240.]https://doi.org/10.1070/RC2001v070n03ABEH000627
3. Pomogailo A.D. Hybrid polymer - inorganic nanocomposites. // Advances in chemistry. 2000 T. 69. No. 1. from. 60-89 [A D Pomogailo, Hybrid polymer-inorganic nanocomposites. Russ.Chem. Rev. 2000; 69 (1): 53-80] https://doi.org/10.1070/RC2000v069n01ABEH000506
4. Pomogailo A.D., Rosenberg A.S., Uflyand I.E. Metal nanoparticles in polymers. Moscow: Chemistry, 2000.672 p. [Pomogaylo A.D., Rozenberg A.S., Uflyand I.E. Nanochastitsy metallov v polimerakh. Moscow: Khimiya Publ .; (2000); 672.]
5. Tretyakov A.O. Polymer nanocomposites - materials of the XXI century. //Equipment and tools for professionals. 2003. No. 2 (37). p. 18-20. [Tretyakov A.O. Polimernye nanokompozity —materialy XXI veka Oborudovaniye i instrument dlya professionalov. 2003; 2 (37): 18-20.]
6. Mikhailin Yu.A. Polymer nanocomposite materials. // Polymer materials. 2009. No. 7. p.10-13. [Mikhaylin Yu.A. Nanokompozitniye polimerniye materially Polimernye materialy. 2009; (7): 10-13.
7. Gubin S.P., Yurkov G. Yu., Kosobudsky I.D. Nanomaterials based on metal-containing nanoparticles in polyethylene and other carbon-chain polimers. // International Journal of Materials and Product Technology. 2005; 23 (1- 2): 2- 25.
8. Prut E.V., Erina N.A., Karger-Kocsis J., Medintseva T.I. Effects of Blend Composition and Dynamic Vulcanization on the Morphology and Dynamic Viscoelastic Properties of PP / EPDM Blends // Journal of Appl. Polym. Sci. 2008; (109): 1212-1220.
9. Kurbanova N.I., Alimirzoeva N.A., Guseinova Z.N., Nurullayeva D.R. Ecological Method of Preparation of Metal-Containing Nanoparticles in Polyethylene Matrix // ITWCCST. 2017. Baku. Azerbaijan. 10-13 Sept. Book of Proceedings. 2017; 24-26.
10.Ashpina O. TPE-trends // The Chemical Journal. 2011; (1-2): 58-61.
11. Pomogailo A.D. Molecular polymer polymer compositions. Synthetic aspects // Advances in chemistry. 2002. T. 71. No. 1. C.5-38. [Pomogaylo A.D. [Molecular polymer-polymer compositions. Synthetic Aspects. Russ.Chem. Rev. 2002; 71 (1): 5-38]. https://doi.org/10.1070/RC2002v071n01ABEH000681
12. Kahramanli Yu.N. Incompatible polymer blends and composite materials based on them. Baku: Elm, 2013.152 p. [Kakhramanly Yu.N. Nesovmestimyye polimernyye smesi i kompozitsionnyye materialy na ikh osnove. Baku: Elm Publ; 2013.]
13. Kuleznev V.N. Mixtures and alloys of polymers. // Lecture notes. SPb .: Scientific bases and technologies. 2013.216 p. [Kuleznev V.N. Smesi i splavy polimerov. Konspekt lektsiy. SPb .: Nauchnyye osnovy i tekhnologii. 2013.]
CC BY-ND
A work licensed in this way allows the following:
1. The freedom to use and perform the work: The licensee must be allowed to make any use, private or public, of the work.
2. The freedom to study the work and apply the information: The licensee must be allowed to examine the work and to use the knowledge gained from the work in any way. The license may not, for example, restrict "reverse engineering."
2. The freedom to redistribute copies: Copies may be sold, swapped or given away for free, in the same form as the original.
