Internal stresses and hardness of alloys based on the V-Nb-Ta-Ti system irradiated with helium ions

I. A. Ivanov; B. S. Amanzhulov; V. V. Uglov; S. V. Zlotski; A. M. Temir; M. V. Koloberdin; M. V. Zdorovets; A. D. Sapar; Y. O. Ungarbayev; Ke Jin

doi:10.1007/s11182-025-03367-6

Internal stresses and hardness of alloys based on the V-Nb-Ta-Ti system irradiated with helium ions

I. A. Ivanov, B. S. Amanzhulov^*, V. V. Uglov, S. V. Zlotski, A. M. Temir, M. V. Koloberdin, M. V. Zdorovets, A. D. Sapar, Y. O. Ungarbayev, Ke Jin

^*Corresponding author for this work

Advanced Research Institute of Multidisciplinary Science

Research output: Contribution to journal › Article › peer-review

Abstract

The changes in internal stresses and mechanical properties of V‑Nb-Ta-Ti alloys manufactured by arc melting after irradiation with He²⁺ ions (40 keV) to a fluence of 2 ⋅ 10¹⁷ cm⁻² are studied. The irradiation of V, VNb, and VNbTa alloys is shown to decrease the compressive macrostresses in the pre-peak region and increase them for V and VNbTa in the peak region of helium implantation. The irradiation of a VNbTaTi high-entropy alloy increases the compressive macrostresses by 44% and 50% in the two regions, respectively. The dislocation density is observed to increase significantly. The elastic modulus of VNbTa and VNbTaTi was stable, but decreased for V and VNb. The degree of hardening is the highest for V and VNb (99% and 52%, respectively) and the lowest—for VNbTa and VNbTaTi (29% and 45%, respectively). The influence of macrostresses and dislocation density on the hardness of V‑Nb-Ta-Ti alloys irradiated with He is established. VNbTaTi shows a higher radiation resistance compared to that of V, VNb, and VNbTa.

Original language	English
Pages (from-to)	2213-2223
Number of pages	11
Journal	Russian Physics Journal
Volume	67
Issue number	12
DOIs	https://doi.org/10.1007/s11182-025-03367-6
Publication status	Published - Dec 2024

Keywords

Dislocation density
Elastic modulus
Hardness
High entropy alloy
Ion irradiation
Macrostress
Radiation defects

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10.1007/s11182-025-03367-6

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title = "Internal stresses and hardness of alloys based on the V-Nb-Ta-Ti system irradiated with helium ions",

abstract = "The changes in internal stresses and mechanical properties of V‑Nb-Ta-Ti alloys manufactured by arc melting after irradiation with He2+ ions (40 keV) to a fluence of 2 ⋅ 1017 cm−2 are studied. The irradiation of V, VNb, and VNbTa alloys is shown to decrease the compressive macrostresses in the pre-peak region and increase them for V and VNbTa in the peak region of helium implantation. The irradiation of a VNbTaTi high-entropy alloy increases the compressive macrostresses by 44% and 50% in the two regions, respectively. The dislocation density is observed to increase significantly. The elastic modulus of VNbTa and VNbTaTi was stable, but decreased for V and VNb. The degree of hardening is the highest for V and VNb (99% and 52%, respectively) and the lowest—for VNbTa and VNbTaTi (29% and 45%, respectively). The influence of macrostresses and dislocation density on the hardness of V‑Nb-Ta-Ti alloys irradiated with He is established. VNbTaTi shows a higher radiation resistance compared to that of V, VNb, and VNbTa.",

keywords = "Dislocation density, Elastic modulus, Hardness, High entropy alloy, Ion irradiation, Macrostress, Radiation defects",

author = "Ivanov, {I. A.} and Amanzhulov, {B. S.} and Uglov, {V. V.} and Zlotski, {S. V.} and Temir, {A. M.} and Koloberdin, {M. V.} and Zdorovets, {M. V.} and Sapar, {A. D.} and Ungarbayev, {Y. O.} and Ke Jin",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Switzerland AG 2025.",

year = "2024",

month = dec,

doi = "10.1007/s11182-025-03367-6",

language = "English",

volume = "67",

pages = "2213--2223",

journal = "Russian Physics Journal",

issn = "1064-8887",

publisher = "Springer New York",

number = "12",

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TY - JOUR

T1 - Internal stresses and hardness of alloys based on the V-Nb-Ta-Ti system irradiated with helium ions

AU - Ivanov, I. A.

AU - Amanzhulov, B. S.

AU - Uglov, V. V.

AU - Zlotski, S. V.

AU - Temir, A. M.

AU - Koloberdin, M. V.

AU - Zdorovets, M. V.

AU - Sapar, A. D.

AU - Ungarbayev, Y. O.

AU - Jin, Ke

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature Switzerland AG 2025.

PY - 2024/12

Y1 - 2024/12

N2 - The changes in internal stresses and mechanical properties of V‑Nb-Ta-Ti alloys manufactured by arc melting after irradiation with He2+ ions (40 keV) to a fluence of 2 ⋅ 1017 cm−2 are studied. The irradiation of V, VNb, and VNbTa alloys is shown to decrease the compressive macrostresses in the pre-peak region and increase them for V and VNbTa in the peak region of helium implantation. The irradiation of a VNbTaTi high-entropy alloy increases the compressive macrostresses by 44% and 50% in the two regions, respectively. The dislocation density is observed to increase significantly. The elastic modulus of VNbTa and VNbTaTi was stable, but decreased for V and VNb. The degree of hardening is the highest for V and VNb (99% and 52%, respectively) and the lowest—for VNbTa and VNbTaTi (29% and 45%, respectively). The influence of macrostresses and dislocation density on the hardness of V‑Nb-Ta-Ti alloys irradiated with He is established. VNbTaTi shows a higher radiation resistance compared to that of V, VNb, and VNbTa.

AB - The changes in internal stresses and mechanical properties of V‑Nb-Ta-Ti alloys manufactured by arc melting after irradiation with He2+ ions (40 keV) to a fluence of 2 ⋅ 1017 cm−2 are studied. The irradiation of V, VNb, and VNbTa alloys is shown to decrease the compressive macrostresses in the pre-peak region and increase them for V and VNbTa in the peak region of helium implantation. The irradiation of a VNbTaTi high-entropy alloy increases the compressive macrostresses by 44% and 50% in the two regions, respectively. The dislocation density is observed to increase significantly. The elastic modulus of VNbTa and VNbTaTi was stable, but decreased for V and VNb. The degree of hardening is the highest for V and VNb (99% and 52%, respectively) and the lowest—for VNbTa and VNbTaTi (29% and 45%, respectively). The influence of macrostresses and dislocation density on the hardness of V‑Nb-Ta-Ti alloys irradiated with He is established. VNbTaTi shows a higher radiation resistance compared to that of V, VNb, and VNbTa.

KW - Dislocation density

KW - Elastic modulus

KW - Hardness

KW - High entropy alloy

KW - Ion irradiation

KW - Macrostress

KW - Radiation defects

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DO - 10.1007/s11182-025-03367-6

M3 - Article

AN - SCOPUS:105001084354

SN - 1064-8887

VL - 67

SP - 2213

EP - 2223

JO - Russian Physics Journal

JF - Russian Physics Journal

IS - 12

ER -

Internal stresses and hardness of alloys based on the V-Nb-Ta-Ti system irradiated with helium ions

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Keywords

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