G. I. Trifonov scite author profile

G. I. Trifonov

4Publications

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Affiliations

United States Air Force Academy, Voronezh State Technical University, Air Force Academy named after Professor NE Zhukovsky and Yu.A. Gagarin

Publications

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Study of quality criteria for two-phase iron-based composite coatings formed by plasma spraying

Zhachkin

Trifonov

Егорова

et al. 2021

Vestn. Voronež. gos. univ. inž. tehnol.

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The increasing relevance in the field of repair and restoration of machines and mechanisms is acquiring gas-thermal methods of applying functional coatings to the working surfaces of parts of machine assemblies. The purpose of gas-thermal coating methods is to provide and obtain special physical and mechanical properties of the surface of the part, as well as to restore worn-out components and mechanisms after their long-term and intensive operation. Plasma spraying of composite coatings is an effective method of gas-thermal treatment of the surface of a part. In this paper, a study was conducted on the optimal selection of material for plasma spraying of a part, taking into account its operational features and types of wear of working surfaces. In particular, the operating conditions of the screw of the conveying conveyor are analyzed. The technological features of the application of composite materials by plasma spraying technology are considered. The theoretical selection of a two-phase dispersed-filled composite for application to the working surfaces of the screw in order to restore and harden it has been carried out. Studies and analysis of one of the main indicators of the quality of the formed coating after plasma spraying – the magnitude of the resulting residual stresses (stretching and compression) have been carried out. Taking as a basis the kinematic modes and geometry features of the working surfaces of the screw, as well as the criteria for the formation of the thickness of the sprayed layer, the calculation equations for determining the residual stresses arising on the screw and cylindrical surfaces of the screw of the conveying conveyor are obtained. It is concluded that in order to achieve the required physical and mechanical properties of the coating, the volume fraction of the filler in the matrix of the PG-SR4 composite powder should be in the range of 20–25%. Therefore, it is possible to use in practice a particulate-filled composite of the NiСrВSiFе type with 20–25% reinforcing TiC filler particles in order to restore parts of machines and mechanisms.

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Modeling of the influence of non-stationary waves in three-component medium in the formation of a plasma jet

Sharifullin

Zhachkin

Trifonov

2019

J. Phys.: Conf. Ser.

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This article discusses the mathematical description of the physical processes of transformation of composite substances of a plasma jet. A mathematical model describing the propagation of elastic waves in a three-component medium was developed for the prediction and planning of the use of plasma deposition technology, in particular in the study of the kinematic characteristics of the plasma flow. Also in the course of mathematical modeling the table of coefficients of compressibility of liquid (plasma jet) and gas and velocities of longitudinal and transverse elastic waves is obtained. Graphs of the velocity of propagation of longitudinal and transverse waves in the plasma coating material on its physical and mechanical characteristics-compressibility coefficients are plotted.

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Calculation of parameters of particles in a plasma jet and modeling of kinematic modes of spraying of wear resistant material

Sharifullin

Trifonov

Vyachina

2018

J. Phys.: Conf. Ser.

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Investigation and prediction of adhesion strength of plasma coatings by mathematical modeling of deposition parameters

Zhachkin¹,

Trifonov²,

Penkov³

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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In this paper, studies were conducted in the field of adhesive strength of plasma coatings and the surface of the part. The propagation of a crack front in a plasma coating material with composite inclusions is simulated. It was proposed to consider the possibility of introducing into the composition of the material sputtering additional composite inclusions that have a greater plasticity and a size greater than the size of the particles in the coating.

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G. I. Trifonov

Study of quality criteria for two-phase iron-based composite coatings formed by plasma spraying

Modeling of the influence of non-stationary waves in three-component medium in the formation of a plasma jet

Calculation of parameters of particles in a plasma jet and modeling of kinematic modes of spraying of wear resistant material

Investigation and prediction of adhesion strength of plasma coatings by mathematical modeling of deposition parameters

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