RT Journal Article ID 4ebbda427563c9d9 A1 Yanovsky, Yuri G. A1 Kozlov, G. V. A1 Karnet, Yulia N. T1 MECHANISM UNDERLYING THE FORMATION OF INTERPHASE REGIONS IN ELASTOMER DISPERSELY FILLED COMPOSITES AND ITS DESCRIPTION WITHIN THE FRAMEWORK OF FRACTAL APPROACH JF Nanoscience and Technology: An International Journal JO NST YR 2011 FD 2011-12-20 VO 2 IS 3 SP 217 OP 229 K1 polymer composites K1 nano-size disperse fillers K1 interphase interactions K1 fractal parameters K1 macromechanical characteristics K1 reinforcement AB Discussed is the effect of interphase interactions on physical-mechanical properties of polymer disperse-filled composite media. It is shown that a value of the fractal dimension of the surface of filler particles greatly affects the process of formation of an adsorption (interphase) layer. The relationships that allow prediction of the parameters of interphase layers in polymer composites dispersely filled by nano-size particles, viz., a relative fraction of the polymer phase adsorbed on filler particles and a thickness of the interphase layer, are constructed within the framework of fractal description. The relationship that determine the interrelation between macromechanical characteristics of a heterogeneous medium and fractal parameters of interphase regions are suggested as well. PB Begell House LK https://www.dl.begellhouse.com/journals/11e12455066dab5d,2a60499e45bab38a,4ebbda427563c9d9.html