A. Krasavin scite author profile

A. Krasavin

5Publications

36Citation Statements Received

97Citation Statements Given

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D. Serikbayev East Kazakhstan State Technical University

Publications

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Fabrication and Characterization of Zr Microplasma Sprayed Coatings for Medical Applications

Voinarovych

Alontseva

Kyslytsia

et al. 2021

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This paper presents new results of studying the influence of parameters of microplasma spraying (MPS) of Zr wire on the structure of Zr coatings. The coating experiments were accomplished in a two level fractional factorial design. Individual particles of sprayed Zr wire and their splats on the substrate were collected under various spraying parameters (amperage, spraying distance, plasma gas flow rate and wire flow rate) and evaluated by Scanning Electron Microscopy (SEM) to establish the effect of particle size and shape on the coating microstructure. The particles were characterized by measurement of their sizes and the obtained results were evaluated in terms of their degree of melting. This was compared with the experimentally observed coating microstructure type and finally correlated to the investigated coating porosity to select the specific MPS parameters of Zr coatings depositing onto medical implants from Ti alloy. It was found that the main parameters influencing the size of the sprayed Zr particles and the porosity of the Zr coatings are the plasma gas flow rate and amperage. It was demonstrated that it is possible to control the porosity of Zr microplasma coatings in the range from 2.8% to 20.3% by changing the parameters of the MPS. The parameters of microplasma spraying of Zr wire were established to obtain medical implant coatings with porosity up to 20.3% and pore size up to 300 μm.

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Manufacturing and Characterization of Tantalum Microplasma Coatings for Biomedical Application

Alontseva

Khozhanov

Gert

et al. 2020

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Robotic Microplasma Spraying and Characterization of Zirconium Coatings

Alontseva

Khozhanov

Voinarovich

et al. 2020

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Development of an Intelligent Robotic System for Plasma Processing of Industrial Products with Complex Shape

Kussaiyn-Murat¹,

Krasavin²,

Alontseva³

et al. 2021

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The paper presents new results of automated path planning for an industrial robot manipulator performing microplasma spraying of coatings on substrates with complex surface shapes. Path planning and automatic generation of the manipulator motion program are performed using data of a preliminary 3D surface scanning by a laser triangulation distance sensor installed on the same robot arm. The automatic manipulator working tool path planning algorithm is based on the choice of the starting segment of the working tool trace as a geodetic line on the surface. An algorithm for optimal spatial curve approximation by a sequence of line segments and arcs has been developed as a part of the automatic manipulator program generation system. The developed algorithms and their software implementation were experimentally tested through robotic microplasma spraying of a protective coating on the surface of a jaw crusher plate, which was then successfully operated for crushing mineral raw materials.

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Modeling of Processes Taking Place during Powder Coating Treatment by an Electron Beam or a Plasma Jet

et al. 2014

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This paper considers the problem of nding the temperature eld in two-layer metallic materials heated by a moving source of radiation. It describes developed by the authors numerical method for solving the problem of heating a two-layer plate by a moving axially symmetric surface heat source with regard to the function of distribution of the power density of the beam for which the program of computation in C ++ was implemented. The calculation results were used for selecting the optimal parameters (speed and power density of the source) of modifying radiation of protective powder coatings on steel substrates.

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A. Krasavin

Fabrication and Characterization of Zr Microplasma Sprayed Coatings for Medical Applications

Manufacturing and Characterization of Tantalum Microplasma Coatings for Biomedical Application

Robotic Microplasma Spraying and Characterization of Zirconium Coatings

Development of an Intelligent Robotic System for Plasma Processing of Industrial Products with Complex Shape

Modeling of Processes Taking Place during Powder Coating Treatment by an Electron Beam or a Plasma Jet

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