ABSTRACT
G. V. KOZLOV, I. V. DOLBIN, JOZEF RICHERT, O. V. STOYANOV, and G. E. ZAIKOV
10.1 Introduction .................................................................................. 148 10.2 Natural Nanocomposites Structure .............................................. 149 10.4 Intercomponent Adhesion in Natural Nanocomposites ............... 169 10.5 The Methods of Natural Nanocomposites Nanostructure
Regulation .................................................................................... 187 Keywords .............................................................................................. 198 References ............................................................................................. 198
10.1 INTRODUCTION
The stated in the present article results give purely practical aspect of such theoretical concepts as the cluster model of polymers amorphous state stricture and fractal analysis application for the description of structure and properties of polymers, treated as natural nanocomposites. The necessary nanostructure goal-directed making will allow to obtain polymers, not yielding (and even exceeding) by their properties to the composites, produced on their basis. Structureless (defect-free) polymers are imagined the most perspective in this respect. Such polymers can be natural replacement for a large number of elaborated at present polymer nanocomposites. The application of structureless polymers as artificial nanocomposites polymer matrix can give much larger effect. Such approach allows to obtain polymeric materials, comparable by their characteristics with metals (e.g., with aluminum).
