A study of the phase-structural engineering possibilities of coatings on D16 alloy during micro-arc oxidation in electrolytes of different types

Subbotinа, Valeria; Sоbоl, O. V.; Belozerov, Valery; Subbotin, A. V.; Smyrnova, Yuliya

doi:10.15587/1729-4061.2020.209722

Cited by 5 publications

(5 citation statements)

References 45 publications

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“…However, emphasis is made in [18] only on the advantages of discrete strengthening. On the contrary, in [19,20], the authors argue about the advantages of continuous strengthening. In particular, among these methods, microarc oxidation (MAO) attracts attention [21][22][23][24].…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Substantiating promising technical solutions for turbo- expander power plants based on the research into working processes and states

Tkachuk,

Lvov,

Kravchenko

et al. 2023

EEJET

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One of the most rational methods of energy utilization of compressed gas in pipelines is to use turbo-expander installations. In particular, these are autonomous turbo-expander power stations. A fundamentally new concept has been devised to improve the technical and economic performance of this type of machines. This concept is not focused on a separate aspect of the plant's operation but on their entire set. In particular, physical principles, structures, and technologies were considered as an object of research. First, effective parameters of gas-dynamic flows and heat-mass transfer were determined based on the modeling of work processes. Secondly, progressive designs of turbo-expander units have been created. Thirdly, technologies for the production of parts and assemblies of turbo-expander units have been developed, which combine, unlike the traditional ones, different types of strengthening for contacting parts in their pair. A method of parametric modeling was used to substantiate the technical solutions of the elements of turbo-expander power plants. This makes it possible to determine the technical characteristics of these installations under a certain set of parameters. By purposeful variation, a recommended set of their parameters was determined, which ensure the improvement of the most important technical characteristics. A specialized database was built, which contains an array of information about the regularities of the influence of variation of significant parameters on various characteristics of turbo-expander power plants. Already on this basis, the problems of synthesis of successful technical solutions of turbo-expander power plants are solved. As a result, their high energy efficiency is ensured. Thus, the efficiency of the expander was achieved at the level of 86 % while the resource increased by 20–25 %. All these solutions were implemented in a number of unique turbo-expander units. Their effectiveness has been demonstrated during operation

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Section: Literature Review and Problem Statementmentioning

confidence: 99%

Substantiating promising technical solutions for turbo- expander power plants based on the research into working processes and states

Tkachuk,

Lvov,

Kravchenko

et al. 2023

EEJET

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“…Для забезпечення високих експлуатаційних характеристик елементів машинобудівних конструкцій застосовуються різноманітні методи їх зміцнення [1][2][3]. Так, привертають увагу застосування високоентропійних та наноструктурованих металів і сплавів [4][5][6][7], поверхневого модифікування [8,9], нанесення різного типу покриттів [10][11][12][13]. При цьому досягається задоволення тим чи іншим критеріям (міцність, зношуваність, корозійна стійкість, витривалість, антифрикційні властивості тощо).…”

Section: аналіз існуючих методів зміцнення елементів машинобудівних к...unclassified

“…1 -представницький фрагмент такої пари деталей. У цій композиції матеріали мають різні та варійовані модулі пружності е та коефіцієнт Пуассона v. Тут деталь із алюмінію (Al) континуально покривається за технологією МАО [10,11] шаром корунду Al 2 O 3 . Чавунна деталь Iron покривається системою зон дискретного зміцнення зі сталі (Steel).…”

Section: дослідження напружено-деформованого стану контактуючих зміцн...unclassified

Conceptual Foundations of Discrete-Continuous Strengthening of Engine and Turbo-Expander Components

Tkachuk,

Grabovskiy,

Tkachuk

et al. 2023

ICE

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The article focuses on design and technological measures aimed at ensuring improved technological characteristics of engines and turboexpander units. In particular, an improved concept of the technology of discrete-continuous strengthening of structural elements has been developed. This concept combines design and technological measures in a single technical solution. This expanded parameter space ensures greater efficiency of the final synthesised solution. For example, by analysing the stress-strain state of a representative fragment of contacting structural parts, the regularities of the influence of design and technological parameters on strength characteristics are determined: sets of parameters that provide increased strength of contacting parts and their durability are substantiated. Friction in the mating of parts is also reduced. In addition, the efficiency of the mechanism, which includes the contacting parts subjected to hardening, increases. The result is an increase in the technological characteristics of engines, turbo-expander units and other machines whose parts are subjected to discrete-continuous hardening. In general, the developed concept is aimed at a major enhancement of the service characteristics of structural elements. This is stated in the objective functions. These objective functions are minimized or maximized in the extended parametric space. A parametric model of the stress-strain state of a fragment of discrete-continuous reinforced bodies is created. This model makes it possible to study the impact of project and technological parameters and tribomechanical properties of contacting bodies. By purposefully varying the properties of materials, the shape and size of the zones of discrete and continuous strengthening, it is possible to achieve increased tribomechanical characteristics of a pair of contacting bodies.

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“…One of these methods is the impressed current cathodic protection (ICCP) system [4], which involves the application of an electrical current to the metal to prevent corrosion. Coating is another effective method that can be used to protect aluminum from corrosion by forming a protective barrier between the metal and the environment [5].…”

Section: Introductionmentioning

confidence: 99%

Sealing effect on corrosion resistance of boric sulfuric acid anodizing on AA2024

Zuchry

Renreng

Arsyad

et al. 2023

EEJET

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Aluminum is widely used due to its excellent properties, lightweight and thermal conductivity. However, when used in aircraft applications, it can cause corrosion and sticking, compromising safety. To address this issue, anodizing is used to improve aluminum's corrosion resistance and adhesion. In this study, the AA2024 material was anodized using the boron-sulfuric acid anodization (BSAA) process, followed by a sealing process using acetic acid. This sealing process forms an oxide layer on the aluminum's surface, which reduces the corrosion rate. The study investigated the effects of anodization voltage and time on the results of BSAA anodization through quantitative and qualitative measurements, including corrosion resistance, potentiodynamic polarization, scanning electron microscopy (SEM), and energy dispersive X-ray spectroscopy (EDS). The results showed that samples anodized with a gasket could reduce the corrosion rate by up to 85 % compared to those without a gasket and substrate. The most significant reduction in corrosion rates occurred at an anodization voltage of 10 V and an anodization time of 15 min. The potentiodynamic test results indicated that the Tafel plot during sealing lies in the cathodic region where the corrosion current density decreases with increasing voltage. SEM observations revealed that the anodizing process could provide an oxide layer on the samples' surface, while the sealing process creates a smooth surface. EDS analysis showed that an oxide compound was formed in an oxide bond state after the sample surface was subjected to the sealing treatment. Overall, the study demonstrates the effectiveness of BSAA anodization in improving corrosion resistance and highlights the importance of considering the anodization parameters

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A study of the phase-structural engineering possibilities of coatings on D16 alloy during micro-arc oxidation in electrolytes of different types

Cited by 5 publications

References 45 publications

Substantiating promising technical solutions for turbo- expander power plants based on the research into working processes and states

Substantiating promising technical solutions for turbo- expander power plants based on the research into working processes and states

Conceptual Foundations of Discrete-Continuous Strengthening of Engine and Turbo-Expander Components

Sealing effect on corrosion resistance of boric sulfuric acid anodizing on AA2024

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