Кафедра прикладної механіки та мехатроніки

Постійне посилання на фондhttps://repository.lntu.edu.ua/handle/123456789/74

Переглянути

Результати пошуку

Зараз показуємо 1 - 2 з 2
  • Item type:Наукова стаття,
    Theoretical and Experimental Studies of the Properties of Porous Permeable Materials Obtained from Industrial Waste
    (2022-05-25) Povstyanoy, Oleksandr; Imbirovich, Nataliya; Tkachuk, Valentyna; Redko, Rostyslav
    This article theoretically and experimentally investigates the scientific and technical problem of using multilayer porous permeable materials from industrial waste with controlled functional and technological characteristics by predicting the composition, structure, properties using computer information technology. These porous permeable materials (PPM) from industrial waste are suitable for the purification of technical liquids and gases, which has increased the efficiency of using products in various fields of mechanical engineering. The method of computer modeling proposed by the authors will allow not only to determine the porosity distribution of the filter material but also to determine the relationship between technological and structural parameters. The results of this scientific work are used to develop porous permeable products - filters - for the purification of technical, industrial water, lubricants, and fuels from mechanical impurities contaminants. Developed multilayer porous permeable materials have a higher coefficient of permeability, resource, and dirt capacity with similar single-layer.
  • Item type:Наукова стаття,
    Using Plasma Electrolytic Oxidation Technologies in the Manufacture with Better Biodesign
    (Cham: Springer, 2026-01-17) Povstianoi, Oleksandr; Imbirovych, Natalya; Tkachuk, Valentina
    A promising method for changing the surface state of metals and influencing product design is plasma electrolytic oxidation (PEO) as one of the innovative surface treatment methods. The PEO method allows for a wide range of surface modifications, either by strengthening it or by changing its structural and morphological state. In the field of biomedical materials science, the creation of new implant materials with biocompatible, bioactive properties and high osseointegration is particularly relevant. Titanium and zirconium alloys are characterized by an excellent combination of a complex of mechanical and chemical properties with inertness to a living organism, which is ensured by their ability to form a passive film on their sur-face. Such alloys are used in the field of implantology and for the manufacture of surgical instruments and implants. In order to increase osseointegration, the modification of the surface of such alloys with bioactive substances is posi-tive, as well as the influence in the direction of modifying its design, which includes increasing the roughness and porosity of the surface. In this work, the PEO method was used for surface treatment of titanium and zirconium alloys. Experimental studies have established the correlation of the influence of treatment modes, such as the composition of the electrolyte and the ratio of current densities on the roughness and porosity of plasma electrolytically oxi-dized coatings at their optimal thickness. The developed alkaline electrolytes were additionally saturated with such biocomponents as diatomite and hy-droxyapatite.