The elastic hysteresis properties of dynamic thermoplastic elastomers based on nitrile butadiene rubber and polypropylene and modified with the nanofiller montmorillonite were assessed using an RPA polymer dynamic analyser.
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References
1.
MalamatovA.Kh., , Mechanisms of strengthening of polymeric nanocomposites.RKhTU, Moscow, 240 pp. (2006).
2.
KozlovG.V., Structure and properties of polymer nanocomposites within the framework of the fractal concept. Mekh. Kompozits. Mater. Konstr., 12(1): 99–140 (2006).
3.
PinnavaiaT.J., and BeallG.W., Polymer–Clay Nanocomposites.John Wiley & Sons, Ltd, Chichester, UK, 349 pp. (2001).
4.
MikitaevA.K., Nanocomposite polymeric materials based on organic clays. Plast. Massy, (12): 45–50 (2004).
5.
AntipovE.M., Structure and deformation behaviour of nanocomposites based on polypropylene and modified clays. Vys. Soed., A45(11): 1885–1899 (2003).
6.
DubnikovaI.L., Effect of maleinised polypropylene on the structure and thermophysical and thermomechanical properties of nanocomposites of polypropylene and layered silicate. Vys. Soed., A47(11): 1956–1970 (2005).
7.
TutorskiiI.A., Heat-resistant nanocomposites with layered silicates based on nitrile butadiene rubber. Kauch. i Rezina, (2): 16–18 (2007).
8.
SuzdalevI.P., Nanotechnology. Physical Chemistry of Nanoclusters, Nanostructures, and Nanomaterials.Komkniga, Moscow, 395 pp. (2006).
