G. V. Kachalin scite author profile

G. V. Kachalin

5Publications

5Citation Statements Received

4Citation Statements Given

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Moscow Power Engineering Institute

Publications

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The possibilities of the application of ion-plasma technologies to improve the wear resistance of the functional surfaces of power equipment elements

Kachalin¹,

Mednikov²,

Tkhabisimov³

2014

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The reliability and efficiency of power equipment is largely depend on the degree of wear in its most loaded elements, which during operation undergo the cumulative effects of various factors. The mutual manifestation of several kinds of wear leads to the intensification of the destruction processes that will reduce efficiency, and sometimes lead to the complete failure of power equipment. Nowadays, in the field of power engineering, different ways to improve wear resistance are used, but the problem remains unsolved. There is a necessity to develop new methods of universal protection based on modern technologies, which can effectively resist the combination of different kinds of wear. Modern ion-plasma technologies can be applied as the solution to this problem, which have broad application possibilities in surface layer modifications and the formation of multi-functional coatings. To solve such problems, the National Research University "Moscow Power Engineering Institute" (NRU "MPEI") created a unique experimental and industrial complex, which includes specialized ion-plasma equipment for coatings production, including large, cumbersome products (up to 3000 mm in length and up to 5000 kg in weight), experimental facilities for extensive materials and coatings testing, complex with the modern analytical equipment and appliances for studying the structure and properties of coatings. Laboratory results and field tests of ion-plasma coatings developed in NRU "MPEI" have shown that their use leads to a manifold increase in erosion, abrasion, corrosion resistance, fatigue strength, heat resistance, and the significant reduction of the friction coefficient.

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Studies of the Cr-CrN coating characteristics formed by means of the magnetron sputtering method from bulk target

Kachalin¹,

Mednikov²,

Tkhabisimov³

et al. 2017

J. Phys.: Conf. Ser.

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An investigation of ion-plasma coatings solid particle erosion resistance at high-speed impact of gas-abrasive flow

Mednikov¹,

Kachalin²,

Ryzhenkov³

et al. 2016

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The paper is devoted to experimental investigation of ion-plasma coatings solid particle erosion resistance at high-speed impact of gas-abrasive flow. The relevance of the investigation is stipulated by the still unsolved problem of steam turbines first stages' blades protection against solid particle erosion. The results of solid particle erosion investigations of three types of ion-plasma coatings (Ti-TiAlN, Cr-CrC, NiCrC-CrC), formed on samples of blade steels 20Kh13 and 15Kh11MF, are shown. Comparative tests showed the effectiveness of applying NiCrC-CrC and Cr-CrC coatings on blade steels 20Kh13 and 15Kh11MF for solid particle erosion protection.

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Application of nanocomposite coatings to protect power equipment from droplet impingement erosion

et al. 2014

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Определение характеристик эрозионного износа стали 15Х11МФ с ионно-плазменным покрытием Cr–CrC

Seleznev¹,

Mednikov²,

Tkhabisimov³

et al. 2016

Теплоэнергетика

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G. V. Kachalin

The possibilities of the application of ion-plasma technologies to improve the wear resistance of the functional surfaces of power equipment elements

Studies of the Cr-CrN coating characteristics formed by means of the magnetron sputtering method from bulk target

An investigation of ion-plasma coatings solid particle erosion resistance at high-speed impact of gas-abrasive flow

Application of nanocomposite coatings to protect power equipment from droplet impingement erosion

Определение характеристик эрозионного износа стали 15Х11МФ с ионно-плазменным покрытием Cr–CrC

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