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Abstract
The article considers physico-technological aspects of receiving nanostructural topocomposite coatings in terms of the cascade cross effect based on the special cathodic system, making possible ionic-plasma processing simultaneously with the use of three cathodes in a pulse mode. The authors carry out theoretical and experimental researches of forming concentration profiles of element distribution in surface layers of the bilayer “film-base” system. They determine the features of mass transfer processes developing in response to cascade cross effect. It is demonstrated that due to the mutual diffusion of the film and the base elements in the field of the phase boundary in the “film-base” system a transition area is formed. Its dimensions can be associated with the thickness of the nanofilm. The authors give an example of receiving a multilayer nanostructural composition in terms of cascade cross effect.
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1 Omsk Scientific Research Institute of Process and Engine Manufacture, 283, street of B. Khmelnytskyi, Omsk, 644021, Russia
2 Siberian State Automobile and Highway University, 5, Mira ave., Omsk, 644080, Russia
3 Dostoevsky Omsk State University, 55a, Mira ave., Omsk, 644077, Russia
4 FGUP Federal Research and Development Centre «Progress», 4, 5th Kordnaya street, Omsk, 644018, Russia
5 Omsk Tank-Automotive Engineering Institute, 119, 14th military town, Omsk, 644098, Russia