O. O. Parkhomenko scite author profile

O. O. Parkhomenko

5Publications

14Citation Statements Received

16Citation Statements Given

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Affiliations

ORCID, Kharkiv Institute of Physics and Technology, National University of Pharmacy

Publications

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Synthesis of Substituted Thienopyrimidine-4-ones

Ivachtchenko¹,

Kovalenko²,

Tkachenko³

et al. 2004

J. Comb. Chem.

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The parallel solution-phase synthesis of more than 3000 substituted thienopyrimidin-4-ones has been accomplished. Key reactions include assembly of the 2-thioxopyrimidin-4-one ring by condensation of isomeric aminothiophenecarboxylates or their appropriate reactive derivatives (isothiocyanates or dithiocarbamates) with the corresponding isothiocyanates or amines. The libraries from libraries were then obtained in good yields and purities using solution-phase alkylation and acylation methodologies. Simple manual techniques for parallel reactions using special CombiSyn synthesizers were coupled with easy purification procedures (crystallization from the reaction mixtures) to give high-purity final products. The scope and limitations of the developed approach are discussed.

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[3-Amino-5-(3,5-dimethylanilino)-4-phenylsulfonyl-2-thienyl]phenylmethanone

et al. 2007

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Investigation of Irradiation Hardening and Embrittlement of Zr-2.5%Nb Alloy with High-Energy (e,γ)-Beams

Parkhomenko

Grytsyna

Chernyayeva

et al. 2008

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The paper researches into the effect of the initial structural condition of Zr-2.5%Nb alloy, which is widely used in reactor engineering to manufacture reactor core components (mainly as a structural material for RBMK and CANDU pressure tubes), and of irradiation conditions (temperature, applied stress) on irradiation hardening and embrittlement. The reactor damage of Zr-2.5%Nb alloy was modeled with a method of high-energy 225 MeV (e,γ)-beam irradiation, which allows samples to be irradiated under strictly controlled stress conditions. The research has been carried out on Zr-2.5%Nb alloy exposed to four types of thermo-mechanical treatment. It has been found that the alloy is susceptible to intensive irradiation embrittlement irrespective of its initial condition, and the intensity of Zr-2.5%Nb irradiation hardening greatly depends on pre-treatment. In contrast to other conditions, Zr-2.5%Nb alloy is virtually not susceptible to irradiation hardening after high-speed high-frequency (SHF) heating, quenching, and subsequent annealing in the high-temperature range of the α-region, during which the double-phase α+βNb state with high dispersion of βNb (∼1023 m−3) precipitates develops. The obtained results are in good agreement with the post-reactor irradiation tensile test results. The study demonstrates the efficiency of high-energy (e,γ)-beam irradiation for investigating the irradiation hardening and embrittlement of zirconium alloys.

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Phase Transformations and Brittleness of ‘Iron–Vacancy’ System in Fields of Elastic Stresses

Laptev

Parkhomenko

2010

Usp. Fiz. Met.

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Фазовые превращения и хрупкость системы «железо-вакансии» в полях упругих напряжений И. Н. Лаптев, А. А. Пархоменко ННЦ «Харьковский физико-технический институт», ул. Академическая, 1, 61108 Харьков, Украина Роль упругих напряжений в формировании структурно-фазовых состоя-ний в неравновесных системах «железо-вакансии» и «железо-вакансии-углерод» исследована теоретически. Построена петля гистерезиса, опи-сывающая процесс γ α-превращений в поле упругих напряжений. Поле нормировано как «температурно-силовое», каждая точка которого отве-чает определенному упруго напряженному состоянию и конкретному фа-зовому составу сплава. Силовые условия неравновесных мартенситных γ α-превращений в этом пространстве определяются вектором, соеди-няющим любые две точки, лежащие на противоположных ветвях петли гистерезиса. Предложен новый подход к определению температуры хруп-ко-вязкого перехода ОЦК-металлов и условий проявления сверхпластич-ности. Модель может быть использована для описания фазовых превра-щений и прогнозирования работоспособности материалов в сложных «температурно-силовых» полях, включая реакторное облучение.Роль пружніх напружень у формуванні структурно-фазових станів у сис-темах «залізо-вакансії» та «залізо-вакансії-вуглець» досліджено теоре-тично. Побудовано петлю гістерези, яка описує процес γ α-перетворень у полі пружніх напружень. Поле нормовано як «температурно-силове», кожна точка якого відповідає певному пружньо-напруженому стану й конкретному фазовому складу стопу. Силові умови нерівноважних мар-тенситних γ α-перетворень визначаються вектором, який з'єднує будь-які точки, що лежать на протилежних гілках петлі гістерези. Запропоно-вано новий підхід до визначення температури крихко-в'язкого переходу ОЦК-металів і умов прояву надпластичности. Модель може бути викорис-таний для прогнозування працездатности матеріялів у складних «темпе-ратурно-силових» полях, включаючи реакторне опромінення.The role of elastic stresses in the structure-phase states formation in the 'iron-vacancy' and 'iron-vacancy-carbon' systems is investigated theoretically. The hysteresis loop describing γ α-transformations in a field of elastic Успехи физ. мет. / Usp. Fiz. Met. 2010, т. 11, сс. 19-59 Оттиски доступны непосредственно от издателя Фотокопирование разрешено только в соответствии с лицензией © 2010 ИМФ (Институт металлофизики им. Г. В. Курдюмова НАН Украины) Напечатано в Украине.

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Once Again about the Nature of Martensite Formation in Iron and Steels

Laptev¹,

Parkhomenko²

2020

Metallofiz. Noveishie Tekhnol.

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O. O. Parkhomenko

Synthesis of Substituted Thienopyrimidine-4-ones

[3-Amino-5-(3,5-dimethylanilino)-4-phenylsulfonyl-2-thienyl]phenylmethanone

Investigation of Irradiation Hardening and Embrittlement of Zr-2.5%Nb Alloy with High-Energy (e,γ)-Beams

Phase Transformations and Brittleness of ‘Iron–Vacancy’ System in Fields of Elastic Stresses

Once Again about the Nature of Martensite Formation in Iron and Steels

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