Your search keyword '"Ворон, М. М."' showing total 6 results

1. Вплив інтенсивної ультразвукової ударної дії на мікроструктуру та механічні властивості поверхні стопу Со-Сг-Мо-W, одержаного селективним лазерним топленням порошку.

Author

Волошко, С. М., Бурмак, А. П., Владимирський, І. А., Мордюк, Б. М., Васильєв, М. О., Закієв, В. І., Ворон, М. М., and Гурин, П. О.

Subjects

SELECTIVE laser melting, MARTENSITIC transformations, THREE-dimensional printing, RESIDUAL stresses, SURFACE topography

Abstract

The mechanical characteristics, phase composition, residual macroscopic stresses, and surface topography of Co-Cr-Mo-W alloy fabricated using the additive (selective laser melting of powder--SLM) and casting (CT) technologies and modified by ultrasonic impact treatment (UIT) are investigated. A single-contact normal impact-loading mode of UIT is employed. As demonstrated, the macrodefects, including defects of incomplete melting, pores, significant surface roughness, and high levels of residual tensile stresses, which are inherent consequences of 3D printing, are effectively eliminated by short-term UIT in an inert environment. A correlation between the mechanical properties of modified surface layers of the SLM and CT samples and their structural--phase state after UIT exposure for 50 s is established. The strengthening effect of the surface layer of the additively manufactured Co-Cr-Mo-W alloy (by 2 times) is due to the formation of compressive stresses of the first kind (-600 MPa) and martensitic transformation. The Co-Cr-Mo-W alloy obtained by casting technology has lower hardness both in the initial state and after UIT. The strengthening effect does not exceed 1.7 times and is achieved due to a higher level of compressive stresses (-900 MPa) and carbide component refinement. [ABSTRACT FROM AUTHOR]

Published

2024

2. Вплив ультразвукового ударного оброблення на структуру та властивості стоматологічного стопу Co–Cr–Mo–W, одержаного 3D-друком.

Author

Бурмак, А. П., Волошко, С. М., Мордюк, Б. М., Васильєв, М. О., Закієв, В. І., Ворон, М. М., and Гурин, П. О.

Abstract

The mechanical characteristics, phase composition, residual macroscopic stresses, and surface topography of the Co--Cr--Mo--W alloy manufactured by 3D printing using laser bed-powder fusion and modified by ultrasonic impact treatment (UIT) in an inert environment are studied. The interrelation between the mechanical properties of the modified surface layers and their structural and phase state after UIT of different durations (20-60 s) is established. The maximum hardening of the surface layer of the Co--Cr--Mo--W alloy (by 1.5 times) is achieved after UIT for 30 s and is caused by the formation of compressive stresses of the first kind (-510 MPa, which is ≅ 5.5 times higher as compared to the initial state), a decrease in the crystallite sizes of the ε- (80 nm) and γ- (≅ 140 nm) phases, as well as an increase in the content of the ε-phase from 5% to 95% due to the martensitic transformation. The roughness of the modified surface after the optimal UIT regime (30 s) has parameters that practically do not differ from the initial polished state (Ra = 2.66 µm and Rz = 0.52 µm). The increase in microhardness and wear resistance of the surface layers proves the possibility of using UIT as an effective method for local (surface) post-treatment of medical products made of 3D-printed Co--Cr--Mo--W alloy. [ABSTRACT FROM AUTHOR]

Published

2023

3. Модифікація поверхневих шарів неіржавійної криці 40Х13 комбінацією термічного й ультразвукового ударного впливу.

Author

Бурмак, А. П., Васильєв, М. О., Закієв, В. І., Ворон, М. М., and Волошко, С. М.

Subjects

HEAT treatment, DEFORMATION of surfaces, SURFACE roughness, FACTOR analysis, X-ray diffraction, MICROHARDNESS, X-ray powder diffraction

Abstract

The influence of ultrasonic impact treatment (UIT) on the microhardness, roughness and structural-phase state of the stainless steel AISI 420 surface is studied. Ultrasonic impact treatment is performed in an inert environment under the same conditions—the amplitude of the hub end was 25 µm, the duration of treatment—50 s. Samples of AISI 420 steel are used after softening heat treatment at annealing temperature of 800°C (initial state), after additional hardening from 980°C with oil cooling and after additional hardening from 980°C with subsequent annealing at 250°C for one hour. As established, that after UIT there is a significant decrease in the roughness of the modified surface and increase in microhardness for all cases compared to the initial state. Taking into account the data of x-ray diffraction analysis the main factors of stainless steel AISI 420 surface layers deformation hardening under different combinations of thermal and ultrasonic impact are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

4. Структурно-фазові перетворення у поверхневих шарах стопів на основі кобальту з карбідом титану після ультразвукового ударного оброблення

Author

Васильєв, М. О., Мордюк, Б. М., Черепова, Т. С., Волошко, С. М., Бурмак, А. П., Могилко, В. В., and Ворон, М. М.

Subjects

VICKERS hardness, CHROMIUM, NICKEL (Coin), TITANIUM, ALLOYS, NICKEL-chromium alloys

Abstract

Ultrasonic impact treatment (UIT) is used to strengthening and densification of the surface layer of cobalt-based alloys with carbide hardening. The UIT induced structural-phase transformations provide a significant increase in hardness depending on the initial content of the carbide phase in the alloy. The hardening mechanism is due to the subdivision process of the subgrain/grain structure, the refinement of carbide particles, the elimination of porosity in the near-surface region, and concentration changes in the composition. A synergistic effect of carbide hardening and UIT allows achieving the maximum value of Vickers hardness of 16 GPa. Owing to the UIT influence, the 1.5 times increase in hardness of the alloy contained 60 vol.% of TiC can be achieved. In the UIT modified layer, the concentrations of carbon, titanium, and cobalt in the modified layer are revealed to be ∼20 at.%, the concentrations of chromium, iron, and nickel are ∼10 at.%. This chemical composition is characteristic for high-entropy alloys and can be an additional strengthening factor. [ABSTRACT FROM AUTHOR]

Published

2020

5. Синтез композиційних покриттів ультразвуковою ударною обробкою титанового сплаву ВТ6

Author

Мордюк, Б. М., Волошко, С. М., Бурмак, А. П., Могилко, В. В., and Ворон, М. М.

Subjects

COMPOSITE coating, TITANIUM alloys, DRY friction, WEAR resistance, GRAVIMETRIC analysis, TITANIUM powder, TRIBO-corrosion

Abstract

Copyright of Metallophysics & Advanced Technologies / Metallofizika i Novejsie Tehnologii is the property of G.V. Kurdyumov Institute for Metal Physics, N.A.S.U and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

6. Підвищення жаростійкости стопу ВТ6 формуванням оксидних композитних шарів за ультразвукового ударного оброблення

Author

Могилко, В. В., Бурмак, А. П., Владимирський, І. А., Сидоренко, С. І., Волошко, С. М., Ворон, М. М., and Мордюк, Б. М.

Abstract

Copyright of Metallophysics & Advanced Technologies / Metallofizika i Novejsie Tehnologii is the property of G.V. Kurdyumov Institute for Metal Physics, N.A.S.U and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018