Ya. I. Matvienko scite author profile

левих фаз. Розглянуто вплив графітових добавок та вмісту Cu (17 і 33% ваг.) на мікроструктуру та механічні властивості спечених композитів Al-Cu. Обговорюються можливі механізми зміцнення композитів Al-Cu і Al-Cu/C. Ключові слова: Al-Cu/C, металоматричні композити, механічне легування, твердофазне спікання, порошкова металургія. Hypoeutectic and eutectic Al-Cu composites with 5% wt. of graphite additives are prepared using mechanical alloying (MA) of elemental powders and following hot pressing of mixtures at 480-510°C and 30 MPa. The obtained powders and sintered samples are studied using X-ray diffraction (XRD), scanning electron microscopy (SEM), and differential scanning calorimetry (DSC). The MA during 8 hours of all powder compositions results in the formation of Cu 9 Al 4 and CuAl 2 phases as well as Al(Cu) solid solution. Subsequent sintering leads to the decomposition of the metastable Cu 9 Al 4 phase. As shown, the crystalline structure of graphite additives transforms into amorphous one during MA, while the consequent sintering results in the Al 4 C 3 carbide formation. Moreover, the introduction of graphite additives leads to increasing of both the highly dispersed particles amount in mechanically alloyed powder and the volume fraction of metastable Cu 9 Al 4 and stable CuAl 2 intermetallic phases. The effects of both graphite additives and Cu content (17 and 33% wt.) on microstructure and mechanical properties of sintered Al-Cu composites are considered. Possible strengthening mechanisms for Al-Cu and Al-Cu/C composites are discussed.

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Phase Transformations during Mechanical Alloying of Powders with Eutectic Composition of Al–Cu and Al–Cu/C Systems and Their Effect on the Structure and Mechanical Properties of the Composites

Matvienko¹,

Rud²,

Поліщук³

et al. 2019

Metallofiz. Noveishie Tekhnol.

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Synthesis of Composite with the Eutectic Composition of Al–Cu/C System on the Surface of 2024 Aluminium Alloy by High-Frequency Impact Treatment

Vasylyev¹,

Voloshko²,

Закиев³

et al. 2021

Metallofiz. Noveishie Tekhnol.

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Проведено високочастотну ударну обробку (ВЧУО) стопу Д16 із доданням у деформаційну зону порошку Al-Cu/C евтектичного складу після помелу впродовж 8 годин. Досліджено та порівняно структуру та механічні властивості поверхневих шарів стопу після ВЧУО на повітрі за кімнатної температури впродовж 50 с без і з доданням порошку. Показано, що максимальний ефект зміцнення (зростання мікротвердості у ∼3,5 рази) спостерігається після ВЧУО зразка із порошком. За результатами склерометричних досліджень методом багаторазового дряпання, найменше значення

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Effect of Non-Equilibrium Conditions of Reactions Between Cu and Al in the Solid-State on Al$_4$Cu$_9$ Phase Formation in Cu–Al System

Matvienko¹,

Поліщук²,

Rud³

et al. 2020

Metallofiz. Noveishie Tekhnol.

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Ya. I. Matvienko

Effect of graphite additives on microstructure and mechanical properties of Al–Cu composites prepared by mechanical alloying and sintering

Structure and Mechanical Properties of Al–Cu/C Composites Produced by Mechanical Alloying and Solid-State Sintering

Phase Transformations during Mechanical Alloying of Powders with Eutectic Composition of Al–Cu and Al–Cu/C Systems and Their Effect on the Structure and Mechanical Properties of the Composites

Synthesis of Composite with the Eutectic Composition of Al–Cu/C System on the Surface of 2024 Aluminium Alloy by High-Frequency Impact Treatment

Effect of Non-Equilibrium Conditions of Reactions Between Cu and Al in the Solid-State on Al$_4$Cu$_9$ Phase Formation in Cu–Al System

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