D.E. Milaya scite author profile

D.E. Milaya

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7Citation Statements Given

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Influence of Different Types of Initial Bimodal Grain Structures on Indicators of Superplasticity

Bryukhovetskiy¹,

Poyda²,

Poyda³

et al. 2020

Metallofiz. Noveishie Tekhnol.

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The peculiarities of the superplasticity effect of the aluminium Al-Zn-Mg-Cu-Zr system alloy with two types of initial grain structure are considered. For the first type of structure, the large grains are predominant, and submicrocrystalline grains take up less volume. Another type of grain microstructure is that of large grains, rounded by small submicrocrystalline grains, which occupy a significantly larger relative volume. Samples with both types of microstructure exhibit superplastic properties, however, the range of flow stresses and strain rates in which the alloy samples are superplastic is much wider for a microstructure where submicrocrystalline grains predominate. For both types of microstructure, deformation processes are mainly localized in those volumes of samples where submicrocrystalline grains were concentrated. However, large grains change their shape during superplastic deformation. The reason for this may be the manifestation of the hydrodynamic flow during the process of deformation.

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Superplastic Deformation of 01420T Alloy with Initial Bimodal Grain Structure

Milaya¹,

Poyda²,

Bryukhovetsky³

et al. 2020

Metallofiz. Noveishie Tekhnol.

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Проведено механічні випробування зразків алюмінієвого стопу системи Al-Mg-Li марки 01420Т та визначено температурно-швидкісні умови, за яких зразки цього стопу з вихідною бімодальною зеренною структурою проявляють ефект надпластичності. Вивчено структурні зміни, що відбуваються в зразках дослідженого стопу під час надпластичної деформації. Встановлено, що у ході надпластичної деформації мікроструктура зразків стопу стає однорідною та ультрадрібнозернистою. В робочій частині зразків стопу 01420Т в ході надпластичної деформації в результаті в'язкого плину утворюються волокнисті структури, локалізовані в зернограничних порах та тріщинах. Ключові слова: надпластичність, бімодальна зеренна структура, волокна, алюмінієвий стоп. Mechanical tests of aluminium 01420T alloy (system Al-Mg-Li) specimens are performed and temperature-strain rate conditions are determined under

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Superplastic Deformation of the Ak4-1 Alloy With a Surface Layer Melted by Electron Pulse Beam

Bryukhovetsky¹,

Poyda²,

Poyda³

et al. 2019

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Specimens of the aluminum alloy AK4-1, previously irradiated by a pulsed electron beam, are deformed under the conditions of superplasticity. The features of structural changes in the course of superplastic deformation of pre-irradiated specimens are studied. It is shown that the deformation processes occurring in the main part of the specimen and in the layer, melted by a pulsed electron beam, have fundamental differences.

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Features of the grain boundary sliding development under conditions of superplasticity in an alloy with bimodal structure

Poyda¹,

Zavdoveev²,

Poyda³

et al. 2016

Dopov. Nac. akad. nauk Ukr.

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D.E. Milaya

Influence of Different Types of Initial Bimodal Grain Structures on Indicators of Superplasticity

Superplastic Deformation of 01420T Alloy with Initial Bimodal Grain Structure

Superplastic Deformation of the Ak4-1 Alloy With a Surface Layer Melted by Electron Pulse Beam

Features of the grain boundary sliding development under conditions of superplasticity in an alloy with bimodal structure

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