International Scientific Journals
of Scientific Technical Union of Mechanical Engineering "Industry 4.0"

There were considered physical preconditions of appearance of dispersed particles activity in the process of the high molecular matrix modifying. The existence of a non-linear function S(r) = f (r) defining the dependence of the parameters of the characteristic physical properties of the particle of its geometrical parameters was shown. The expediency of use as modifiers dispersed particles with developed morphology of the surface layer, which provides a special energy state, was shown. Methodological approaches the optimum choice of effective modifiers while creating functional composites were developed. Practical applications of the developed approaches were exemplified.

Investigated the features of the structure of the thin-film coatings based on polymeric and oligomeric matrix formed by dipping, spraying or rubbing. It was found a significant effect of energy substrate parameters and components of the coating on the mechanisms of interfacial interactions that determine the parameters of strength, tribological and protective coatings. The active layer morphology of the surface of the substrate formed by mechanical, laser or chemical influence, characterized by the presence of low-dimensional components of different habitus, which affect the energy and mechanical component adhesive strength. By managing service parameters of composite material components on the basis of polymeric and oligomeric matrix manages to change the mechanisms of formation of coatings on metal substrates of carbon steels and non-ferrous metals. Coatings based on the thermal ablation of PTFE products are effective in the process of running heavy-duty friction units and their operation at reversing the motion. Installed effect Nanophase formation regions in the volume of the coating, which help to increase their durability in friction without external supply of lubricant.

Methodical approaches to the creation of NBIC technologies for a system of intellectual support of innovative activities of industrial enterprises (SISIA IE) of the second integration level as a complex of research, educational and production units that generate high-level intellectual products for the operating and innovative production were considered. As examples of integration model realization have been given the functional nanomaterials based on polymer, oligomer matrices and blends for protective, sealing and tribotechnical systems of machines, mechanisms and technological equipment of industrial enterprises and enterprises of the chemical industry