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Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In. / Кузнецов, Д. Д.; Кузнецова, Е. И.; Маширов, А.В.; Данилов, Денис Васильевич; Шандрюк, Г.А.; Мусабиров, И. И.; Щетинин, Игорь Викторович; Прокунин, А. В.; Шавров, В. Г.

In: Journal of Composites Science, 2023.

Research output: Contribution to journalArticlepeer-review

Harvard

Кузнецов, ДД, Кузнецова, ЕИ, Маширов, АВ, Данилов, ДВ, Шандрюк, ГА, Мусабиров, ИИ, Щетинин, ИВ, Прокунин, АВ & Шавров, ВГ 2023, 'Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In', Journal of Composites Science.

APA

Кузнецов, Д. Д., Кузнецова, Е. И., Маширов, А. В., Данилов, Д. В., Шандрюк, Г. А., Мусабиров, И. И., Щетинин, И. В., Прокунин, А. В., & Шавров, В. Г. (2023). Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In. Journal of Composites Science.

Vancouver

Кузнецов ДД, Кузнецова ЕИ, Маширов АВ, Данилов ДВ, Шандрюк ГА, Мусабиров ИИ et al. Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In. Journal of Composites Science. 2023.

Author

Кузнецов, Д. Д. ; Кузнецова, Е. И. ; Маширов, А.В. ; Данилов, Денис Васильевич ; Шандрюк, Г.А. ; Мусабиров, И. И. ; Щетинин, Игорь Викторович ; Прокунин, А. В. ; Шавров, В. Г. / Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In. In: Journal of Composites Science. 2023.

BibTeX

@article{d329f9b79fc843f2aedd87020e2f9c7c,
title = "Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In",
abstract = " The effect of the melt cooling rate on the atomic ordering of austenite and, as a consequence, on themartensitic transformation of a nonstoichiometric alloy of the Ni-Mn-In system has been studied. In-situ TEMobservations revealed differences in the mechanism of phase transformations of the alloy subjected to differentcooling conditions. It is shown that during quenching a high density of antiphase boundaries (APB) is formedand the alloy is in the austenite-martensitic (10M and 14M) state up to a temperature of 120K. In a slowly cooledalloy, a lower APB density is observed, and a two-stage transformation L21/B2 → 10M → 14M occurs in therange of 150–120 K. ",
author = "Кузнецов, {Д. Д.} and Кузнецова, {Е. И.} and А.В. Маширов and Данилов, {Денис Васильевич} and Г.А. Шандрюк and Мусабиров, {И. И.} and Щетинин, {Игорь Викторович} and Прокунин, {А. В.} and Шавров, {В. Г.}",
year = "2023",
language = "русский",
journal = "Journal of Composites Science",
issn = "2504-477X",
publisher = "MDPI AG",

}

RIS

TY - JOUR

T1 - Influence of the Cooling Rate on Austenite Ordering and Martensite Transformation in a Nonstichiommetric Alloy based on Ni-Mn-In

AU - Кузнецов, Д. Д.

AU - Кузнецова, Е. И.

AU - Маширов, А.В.

AU - Данилов, Денис Васильевич

AU - Шандрюк, Г.А.

AU - Мусабиров, И. И.

AU - Щетинин, Игорь Викторович

AU - Прокунин, А. В.

AU - Шавров, В. Г.

PY - 2023

Y1 - 2023

N2 - The effect of the melt cooling rate on the atomic ordering of austenite and, as a consequence, on themartensitic transformation of a nonstoichiometric alloy of the Ni-Mn-In system has been studied. In-situ TEMobservations revealed differences in the mechanism of phase transformations of the alloy subjected to differentcooling conditions. It is shown that during quenching a high density of antiphase boundaries (APB) is formedand the alloy is in the austenite-martensitic (10M and 14M) state up to a temperature of 120K. In a slowly cooledalloy, a lower APB density is observed, and a two-stage transformation L21/B2 → 10M → 14M occurs in therange of 150–120 K.

AB - The effect of the melt cooling rate on the atomic ordering of austenite and, as a consequence, on themartensitic transformation of a nonstoichiometric alloy of the Ni-Mn-In system has been studied. In-situ TEMobservations revealed differences in the mechanism of phase transformations of the alloy subjected to differentcooling conditions. It is shown that during quenching a high density of antiphase boundaries (APB) is formedand the alloy is in the austenite-martensitic (10M and 14M) state up to a temperature of 120K. In a slowly cooledalloy, a lower APB density is observed, and a two-stage transformation L21/B2 → 10M → 14M occurs in therange of 150–120 K.

M3 - статья

JO - Journal of Composites Science

JF - Journal of Composites Science

SN - 2504-477X

ER -

ID: 114305235