In this work, using a unified theoretical approach, the analysis of the processes of visco-plastic forming of typical mechanical engineering structures with homogeneous and structurally heterogeneous materials. The theoretical approach is based on a closed system of equations of the theory of plastic flow of continuum mechanics, taking into account the visco-plastic properties of materials. This approach made it possible to provide system design of structural forming processes.
It is conducting preliminary studies and conducted experimental verification of the effectiveness of producing traditional and nano-modified carbon nanotubes reaktoplastichnih polymer composite materials by the determined application of low-frequency ultrasonic cavitation. A new procedure for the preparation of traditional and nano-modified reaktoplastichnyh polymer composites with the low-frequency ultrasonic cavitation.
It resolves an important economic problems associated with the scientific substantiation of energy saving processes and equipment for reactors plasticity improved quality of products, including special purpose epoxy compositions based polymers, fiber reinforced fillers in combination ultrasonic action, as well as the prediction of physical and mechanical properties of the resulting products.
First established as a set of techniques for assessing the state of management of innovaлtion and investment development of the machine-building industry, and the willingness of the indus-trial enterprise to innovate. These techniques have a complex, not a vision of the structural prob-lems of innovation and investment enterprise development in a rather turbulent economic and investment environment.