ABSTRACT
G. E. ZAIKOV,1 G. V. KOZLOV,2 and A. K. MIKITAEV2 1N.M. Emanuel Institute of Biochemical Physics of Russian Academy of Sciences, Kosygin st., 4, Moscow-119334, Russian Federation 2Kh.M. Berbekov Kabardino-Balkarian State University, Chernyshevsky st., 173, Nal’chik-360004, Russian Federation
6.1 Introduction .................................................................................. 278 6.2 Experimental Part ......................................................................... 280 6.3 Results and Discussion ................................................................ 281 6.4 Conclusions .................................................................................. 295 Keywords .............................................................................................. 295 References ............................................................................................. 296
ABSTRACT
A number of the main mechanical characteristics (yield stress, impact toughness, microhardness) of particulate-filled polymer nanocomposites was described quantitatively within the framework of general conception
– fractal analysis. Such approach allows to study the main specific features of the indicated nanomaterials mechanical behavior. The influence of both nanofiller initial particles size and their aggregation degree on nanocomposites mechanical properties has been shown.
