True fracture stress of UFG samples of Al 6101 alloy › Научные исследования в СПбГУ

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True fracture stress of UFG samples of Al 6101 alloy. / Gunderov, Dmitry Valerievich; Gunderova, Sofia Dmitrievna; Magomedova, Daria Kurbanovna.

в: Письма о материалах, № 4(48), 2022, стр. 424-427.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Gunderov, DV, Gunderova, SD & Magomedova, DK 2022, 'True fracture stress of UFG samples of Al 6101 alloy', Письма о материалах, № 4(48), стр. 424-427.

APA

Gunderov, D. V., Gunderova, S. D., & Magomedova, D. K. (Принято в печать). True fracture stress of UFG samples of Al 6101 alloy. Письма о материалах, (4(48)), 424-427.

Vancouver

Gunderov DV, Gunderova SD, Magomedova DK. True fracture stress of UFG samples of Al 6101 alloy. Письма о материалах. 2022;(4(48)):424-427.

Author

Gunderov, Dmitry Valerievich ; Gunderova, Sofia Dmitrievna ; Magomedova, Daria Kurbanovna. / True fracture stress of UFG samples of Al 6101 alloy. в: Письма о материалах. 2022 ; № 4(48). стр. 424-427.

BibTeX

@article{f3908869d18f40ce9a22e2eafe512c33,

title = "True fracture stress of UFG samples of Al 6101 alloy",

abstract = "This paper presents the results of studies on the true fracture stresses of the Al alloy 6101 with an ultrafine-grained (UFG) structure processed by equal channel angular pressing - conform (ECAP-C) method and the same alloy after artificial aging (AA state). The grain size in the UFG state was about 500 nm. Aging particles and Al3Fe particles were present in the structure of AA and UFG state. Strength and yield stress increase as a result of the formation of UFG structure. The true strain to failure in AA and UFG states of 6101 alloy, taking into account the measurement error, is the same. In this case, the true fracture stress of samples with the UFG structure is markedly higher than the true fracture stress of samples with the AA structure. An explanation for the increase in the true fracture stress of specimens with UFG structure based on a generalization of the Hall-Petch relation and the Zener-Strauss model, a criterion of pore formation on the particle, is proposed.",

keywords = "bulk nanomaterials, EQUAL-CHANNEL ANGULAR PRESSING - CONFORM (ECAP-C), dislocations, TRUE STRESSES, FRACTURE STRESSES, TRUE FRACTURE STRESSES",

author = "Gunderov, {Dmitry Valerievich} and Gunderova, {Sofia Dmitrievna} and Magomedova, {Daria Kurbanovna}",

year = "2022",

language = "English",

pages = "424--427",

journal = "Letters on Materials",

issn = "2218-5046",

publisher = "RUSSIAN ACAD SCIENCES, INST METALS SUPERPLASTICITY PROBLEMS",

number = "4(48)",

}

RIS

TY - JOUR

T1 - True fracture stress of UFG samples of Al 6101 alloy

AU - Gunderov, Dmitry Valerievich

AU - Gunderova, Sofia Dmitrievna

AU - Magomedova, Daria Kurbanovna

PY - 2022

Y1 - 2022

N2 - This paper presents the results of studies on the true fracture stresses of the Al alloy 6101 with an ultrafine-grained (UFG) structure processed by equal channel angular pressing - conform (ECAP-C) method and the same alloy after artificial aging (AA state). The grain size in the UFG state was about 500 nm. Aging particles and Al3Fe particles were present in the structure of AA and UFG state. Strength and yield stress increase as a result of the formation of UFG structure. The true strain to failure in AA and UFG states of 6101 alloy, taking into account the measurement error, is the same. In this case, the true fracture stress of samples with the UFG structure is markedly higher than the true fracture stress of samples with the AA structure. An explanation for the increase in the true fracture stress of specimens with UFG structure based on a generalization of the Hall-Petch relation and the Zener-Strauss model, a criterion of pore formation on the particle, is proposed.

AB - This paper presents the results of studies on the true fracture stresses of the Al alloy 6101 with an ultrafine-grained (UFG) structure processed by equal channel angular pressing - conform (ECAP-C) method and the same alloy after artificial aging (AA state). The grain size in the UFG state was about 500 nm. Aging particles and Al3Fe particles were present in the structure of AA and UFG state. Strength and yield stress increase as a result of the formation of UFG structure. The true strain to failure in AA and UFG states of 6101 alloy, taking into account the measurement error, is the same. In this case, the true fracture stress of samples with the UFG structure is markedly higher than the true fracture stress of samples with the AA structure. An explanation for the increase in the true fracture stress of specimens with UFG structure based on a generalization of the Hall-Petch relation and the Zener-Strauss model, a criterion of pore formation on the particle, is proposed.

KW - bulk nanomaterials

KW - EQUAL-CHANNEL ANGULAR PRESSING - CONFORM (ECAP-C)

KW - dislocations

KW - TRUE STRESSES

KW - FRACTURE STRESSES

KW - TRUE FRACTURE STRESSES

UR - https://www.elibrary.ru/item.asp?id=49903824

M3 - Article

SP - 424

EP - 427

JO - Letters on Materials

JF - Letters on Materials

SN - 2218-5046

IS - 4(48)

ER -

ID: 99300836