S. Chumakova scite author profile

S. Chumakova

2Publications

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25Citation Statements Given

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Investigation of Structure and Wear Resistance of Nanocomposite Coating of Chemical Nickel

Safonov¹,

Shishurin²,

Gorbushin³

et al. 2018

Tribol. Ind.

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The investigation results of the structure and wear resistance of composite chemical coatings on the nickel base obtained by means of mutual codeposition with nanodispersed particles of aluminum oxide and potassium polytitanate are presented. The investigations are carried out by scanning electron microscope. It is found, that composite nickel penetrates into the base metal to a depth of about 5 µm, forming diffusion layer, which provides an increased cohesive strength of the coating with base metal. Composite coating has abundance of inclusions of different size along the whole surface; which are absent in the base coating. Nanodispersed particles penetrate into the coating; accelerate the nickeling process, which provides the increase of the coating wear resistance.

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Physico-mathematical model of the mechanism of galvanic coating by nanoscale materials

Safonov¹,

Shishurin²,

Chumakova³

et al. 2018

asj

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Предложена физико-математическая модель механизма упрочнения гальванических покрытий наноразмерными материалами. Установлено, что на механизм упрочнения наибольшее влияние оказывают структурные превращения, происходящие в нанокомпозиционных покрытиях. Исходя из физических процессов, происходящих в гальванических покрытиях при модификации их наноразмерными материалами, была обоснована и исследована физико-математическая модель механизма их упрочнения. Представленная модель позволяет прогнозировать степень упрочнения нанокомпозиционных покрытий в зависимости от используемых нанодисперсных материалов и расстояния между ними в покрытии. Рис. 4. Схема конструкции установки для ультразвуковой подготовки зерна к помолу

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S. Chumakova

Investigation of Structure and Wear Resistance of Nanocomposite Coating of Chemical Nickel

Physico-mathematical model of the mechanism of galvanic coating by nanoscale materials

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