ABSTRACT
G. E. ZAIKOV,1 KH. SH. YAKH'YAEVA,2 G. M. MAGOMEDOV,3 G. V. KOZLOV,4 B. A. HOWELL,5 and R. YA. DEBERDEEV6
1N.M. Emanuel Institute of Biochemical Physics, of Russian Academy of Sciences, Kosygin st., 4, Moscow-119334, Russian Federation 2FSBEI HPE “M.M. Dzhambulatov Daghestan State Agrarian University,” M. Gadzhiev st, 180, Makhachkala-367032, Russian Federation 3FSBEI HPE “Daghestan State Pedagogical University,” M. Yaragskii st., 57, Makhachkala-367003, Russian Federation 4FSBEI HPE “Kh.M. Berbekov Kabardino-Balkarian State University,” Chernyshevsky st., 173, Nal’chik-360004, Russian Federation 5Central Michigan University, Mount Pleasent, Michigan, USA
6Kazan National Research Technological University, Kazan, Tatarstan, Russia
7.1 Introduction .................................................................................. 278 7.2 Experimental ................................................................................ 278 7.3 Results and Discussion ................................................................ 279 7.4 Conclusions .................................................................................. 297 Keywords .............................................................................................. 297 297
ABSTRACT
The generalized fractal model allowing quantitative description shear strength of polymer pairs adhesional bonding on various factors (temperature, contact duration and pressure at the indicated bonding formation) was proposed. This model also allows to take into consideration molecular and structural characteristics of polymers, forming adhesional bonding. The indicated model applicability for interfacial interactions level in polymer-polymer composites description has been shown.
