Please use this identifier to cite or link to this item:
http://essuir.sumdu.edu.ua/handle/123456789/46087
Or use following links to share this resource in social networks:
Tweet
Recommend this item
Title | The fundamental thermodynamic relation on contact surfaces of multicomponent nanocomposite coatings |
Authors |
Voskoboynik, М.V.
Diadiura, Kostiantyn Oleksandrovych |
ORCID |
http://orcid.org/0000-0002-7575-9711 |
Keywords |
поверхня поверхность surface нанокомпозитне покриття нанокомпозитные покрытия nanocomposite coatings |
Type | Conference Papers |
Date of Issue | 2016 |
URI | http://essuir.sumdu.edu.ua/handle/123456789/46087 |
Publisher | Сумський державний університет |
License | |
Citation | Voskoboynik, М.V. The fundamental thermodynamic relation on contact surfaces of multicomponent nanocomposite coatings [Текст] / М.V. Voskoboynik, К.О. Dyadyura // Сучасні технології у промисловому виробництві: матеріали та програма ІV Всеукраїнської міжвузівської науково-технічної конференції, м. Суми, 19-22 квітня 2016 р.: у 2-х ч. / Редкол.: О.Г. Гусак, В.Г. Євтухов. - Суми: СумДУ, 2016. - Ч.1. - С. 79. |
Abstract |
The increasing demands of modern engineering have spawned the development of new advanced materials for use. The development of advanced materials can be considered to be a typical problem of engineering optimization. In this process, an integrated engineering–physical approach is used to develop novel wear-resistant materials. Until now only a limited amount of investigations have been performed on the progression of the self-organization process during friction. Moreover studies made so far focused mostly on the characteristics of tribo-films. Information in the scientific literature on the interdependence of the characteristics of both tribo-films and underlying surface engineered layer during self-organization is even more limited. The key concept of this is associated with the tribological compatibility of two surfaces interacting during friction. The aim of this paper is to reveal the mechanism of adaptation of hard coating under extreme tribological conditions. The chief theme of this project is the application of concepts of irreversible thermodynamics and self-organization to tribology and the role played by physicochemical interactions in modifying and controlling friction and wear. The driving force of the self-organization process is the open system aimed to decrease entropy production during nonstationary processes. Spontaneous formation of dissipative structures is a result of symmetry perturbations that can be realized only in open systems, which exchange energy, matter, and entropy with their environments. This phenomenon is a focus of attention for many researchers in different fields of science. It has been found that different structure states (amorphous, metastable and stable crystalline phases) may by systematized and described using the common condensation mechanism with different non-equilibrium degree of the process. The non-equilibrium is caused by super-high cooling due to condensed atom thermalization that limits surface diffusion mobility. It is argued that the fractal dimension and multifractality of the polydisperse system are determined by thermodynamic conditions and material properties and can be regarded as the thermodynamic characteristics of the dispersed system. |
Appears in Collections: |
Наукові видання (ТеСЕТ) |
Views
Canada
2
China
2
Germany
16498
Indonesia
1
Ireland
110270
Lithuania
1
Malaysia
1
Nigeria
1
Philippines
1
Romania
1
Singapore
1
South Africa
1
Sri Lanka
1
Sweden
1
Ukraine
2207538
United Kingdom
189841
United States
4036852
Unknown Country
6939238
Downloads
China
1
Germany
3
Lithuania
1
Mexico
1
Singapore
1
Ukraine
1134467
United Kingdom
1
United States
2207536
Unknown Country
2
Files
File | Size | Format | Downloads |
---|---|---|---|
Voskoboynik_surface.pdf | 420.09 kB | Adobe PDF | 3342013 |
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.