Evaluation of physical and mechanical properties of structural components of Ti-Nb alloy

Аннотация

By the results of X-ray analysis, microstructural analysis, nanohardness and elastic modulus measurements it was defined that non-equilibrium phases during the process of crystallization are formed in the titanium-niobium alloy with 40 mass.% of Nb. The minimum of non-equilibrium phases is formed at the Ti-40 mass.% Nb alloy. The uniform grain structure, which consists of β-phase grains with the minimum of elastic modulus, is formed in the alloy ingot. Such structure and complex of properties allows using this alloy for severe plastic deformation.

Язык оригинала	Английский
Название основной публикации	Advanced Materials Research
Издатель	Trans Tech Publications Ltd
Страницы	39-42
Число страниц	4
Том	1040
ISBN (печатное издание)	9783038352648
DOI	https://doi.org/10.4028/www.scientific.net/AMR.1040.39
Состояние	Опубликовано - 2014
Событие	International Conference for Young Scientists “High Technology: Research and Applications 2014”, HTRA 2014 - Tomsk, Российская Федерация Продолжительность: 26 мар 2014 → 28 мар 2014

Серия публикаций

Название	Advanced Materials Research
Том	1040
ISSN (печатное издание)	10226680
ISSN (электронное издание)	16628985

Другое

Другое	International Conference for Young Scientists “High Technology: Research and Applications 2014”, HTRA 2014
Страна	Российская Федерация
Город	Tomsk
Период	26.3.14 → 28.3.14

ASJC Scopus subject areas

Engineering(all)

Доступ к документу

10.4028/www.scientific.net/AMR.1040.39

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Цитировать

Evaluation of physical and mechanical properties of structural components of Ti-Nb alloy. / Kovalevskaya, Zhanna G.; Khimich, Margarita A.; Belyakov, Andrey V.; Shulepov, Ivan A.

Advanced Materials Research. Том 1040 Trans Tech Publications Ltd, 2014. стр. 39-42 (Advanced Materials Research; Том 1040).

Результат исследований: Материалы для книги/типы отчетов › Материалы для конференции

Kovalevskaya, ZG, Khimich, MA, Belyakov, AV & Shulepov, IA 2014, Evaluation of physical and mechanical properties of structural components of Ti-Nb alloy. в Advanced Materials Research. том. 1040, Advanced Materials Research, том. 1040, Trans Tech Publications Ltd, стр. 39-42, International Conference for Young Scientists “High Technology: Research and Applications 2014”, HTRA 2014, Tomsk, Российская Федерация, 26.3.14. https://doi.org/10.4028/www.scientific.net/AMR.1040.39

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abstract = "By the results of X-ray analysis, microstructural analysis, nanohardness and elastic modulus measurements it was defined that non-equilibrium phases during the process of crystallization are formed in the titanium-niobium alloy with 40 mass.% of Nb. The minimum of non-equilibrium phases is formed at the Ti-40 mass.% Nb alloy. The uniform grain structure, which consists of β-phase grains with the minimum of elastic modulus, is formed in the alloy ingot. Such structure and complex of properties allows using this alloy for severe plastic deformation.",

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AU - Shulepov, Ivan A.

PY - 2014

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N2 - By the results of X-ray analysis, microstructural analysis, nanohardness and elastic modulus measurements it was defined that non-equilibrium phases during the process of crystallization are formed in the titanium-niobium alloy with 40 mass.% of Nb. The minimum of non-equilibrium phases is formed at the Ti-40 mass.% Nb alloy. The uniform grain structure, which consists of β-phase grains with the minimum of elastic modulus, is formed in the alloy ingot. Such structure and complex of properties allows using this alloy for severe plastic deformation.

AB - By the results of X-ray analysis, microstructural analysis, nanohardness and elastic modulus measurements it was defined that non-equilibrium phases during the process of crystallization are formed in the titanium-niobium alloy with 40 mass.% of Nb. The minimum of non-equilibrium phases is formed at the Ti-40 mass.% Nb alloy. The uniform grain structure, which consists of β-phase grains with the minimum of elastic modulus, is formed in the alloy ingot. Such structure and complex of properties allows using this alloy for severe plastic deformation.

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KW - Nanohardness

KW - Phase structure

KW - Severe plastic deformation

KW - Titanium-niobium alloy

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