Решеточная Теплоемкость Наноструктурированных Материалов На Основе Титана/Циркония И Алюминия

Dolgusheva, E. B.; Трубицын, В.Ю.

doi:10.21883/ftt.2018.05.45774.329

Cited by 2 publications

(2 citation statements)

References 13 publications

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“…Авторами работы [10] было показано, что эти потенциалы позволяют получить, с высокой степенью точности, параметры ГЦК алюминия, когезионную энергию, упругие постоянные, температуру плавления и другие физические характеристики объемного алюминия. Ранее с этим потенциалом в работах [12,13] были получены плотности колебательных состояний при различной температуре, упругие модули, температурная зависимость теплоемкости, тепловое расширение и др. для ГЦК-Al как в объемном состоянии, так и для нанопленок.…”

Section: методы вычисленийunclassified

Dispersion of long-wave phonons in thin films. Molecular dynamics method

Salamatov¹,

Dolgusheva²

2019

HFIM

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Section: методы вычисленийunclassified

Dispersion of long-wave phonons in thin films. Molecular dynamics method

Salamatov¹,

Dolgusheva²

2019

HFIM

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“…Razmer, morfologiya i struktura chastits nanoporoshka dioksida tsirkoniya, poluchennogo v gidrotermalnyih usloviyah [Size, morphology and structure of particles of zirconium dioxide nanopowders obtained in hydrothermal conditions. Nanosistemyi: fizika, himiya, matematika [Nanosystems: physics, chemistry, mathematics], 1, 26-36 [16]. Dolgusheva, E. B., & Trubiczin, V. Yu.…”

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The influence of type of combined deformation on poligonization substructure of iron and steel У8

Dubovyy¹,

Makruha²

2018

Collection of Scientific Publications NUS

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The influence of the combined deformation on the thermal stability of the polygonization substructure of the technically clean iron and U8 (У8) instrumental steel are shown. Therefore, the purpose of the work is to find the possibility of fixation of stabilization of the polygonization substructure by combined deformation. The hardness, size of coherent scattering area, quantity of nanostructured elements and the angle of disorientation of subgrains of technically clean iron and U8 instrumental steel before after deformation and pre-recrystallization heat treatment are experimentally investigated. The possibility of the thermal stabilization of the polygonization substructure during prerecrystallization heat treatment of the Fe and steels by using combined deformation is established. The impact of the decrease of the sizes of the regions of the coherent scattering on the values of the physical and mechanical properties, such as hardness (which increases by at least 10 %), is proved. The combined deformation allows using this method for manufacture of machine parts and appliances.

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Решеточная Теплоемкость Наноструктурированных Материалов На Основе Титана/Циркония И Алюминия

Cited by 2 publications

References 13 publications

Dispersion of long-wave phonons in thin films. Molecular dynamics method

Dispersion of long-wave phonons in thin films. Molecular dynamics method

The influence of type of combined deformation on poligonization substructure of iron and steel У8

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