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The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys. / Korenev, A. A.; Illarionov, A. G.
In: Physics of Metals and Metallography, Vol. 123, No. 11, 01.11.2022, p. 1132-1138.

Research output: Contribution to journalArticlepeer-review

Harvard

Korenev, AA & Illarionov, AG 2022, 'The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys', Physics of Metals and Metallography, vol. 123, no. 11, pp. 1132-1138. https://doi.org/10.1134/S0031918X22601196

APA

Korenev, A. A., & Illarionov, A. G. (2022). The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys. Physics of Metals and Metallography, 123(11), 1132-1138. https://doi.org/10.1134/S0031918X22601196

Vancouver

Korenev AA, Illarionov AG. The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys. Physics of Metals and Metallography. 2022 Nov 1;123(11):1132-1138. doi: 10.1134/S0031918X22601196

Author

Korenev, A. A. ; Illarionov, A. G. / The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys. In: Physics of Metals and Metallography. 2022 ; Vol. 123, No. 11. pp. 1132-1138.

BibTeX

@article{e4bbb4ae829c4052be903eab553debcd,
title = "The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys",
abstract = "The results of calculations of the elastic properties of quenched biocompatible titanium based Ti–26% Nb, Ti–26% Nb–3% Zr, Ti–26% Nb–6% Zr, Ti–26% Nb–3% Zr–1%Sn, and Ti–26% Nb–3% Zr–1% Sn–0.7Ta alloys (in at %) are presented and compared with the literature and experimental data on estimating the elasticity modulus of alloys by microindentation. Microstructural and X-ray diffraction analysis showed that the studied alloys subjected to quenching from the β-region contain a single-phase metastable solid β-solution prone to twinning under cold deformation as follows from the location of the alloys in the Bo‒Md diagram. Good agreement has been established between the calculated and experimental values of the elastic properties, as characterized by an increase in the shear and Young moduli and a decrease in the Poisson coefficient with an increase in the molybdenum equivalent, which determines the stability of a solid alloy β‑solution.",
author = "Korenev, {A. A.} and Illarionov, {A. G.}",
year = "2022",
month = nov,
day = "1",
doi = "10.1134/S0031918X22601196",
language = "English",
volume = "123",
pages = "1132--1138",
journal = "Physics of Metals and Metallography",
issn = "0031-918X",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "11",

}

RIS

TY - JOUR

T1 - The Calculated and Experimental Elastic Properties of Quenched Biocompatible Ti–Nb, Ti–Nb–Zr, Ti–Nb–Zr–Sn, and Ti–Nb–Zr–Sn–Ta Titanium Alloys

AU - Korenev, A. A.

AU - Illarionov, A. G.

PY - 2022/11/1

Y1 - 2022/11/1

N2 - The results of calculations of the elastic properties of quenched biocompatible titanium based Ti–26% Nb, Ti–26% Nb–3% Zr, Ti–26% Nb–6% Zr, Ti–26% Nb–3% Zr–1%Sn, and Ti–26% Nb–3% Zr–1% Sn–0.7Ta alloys (in at %) are presented and compared with the literature and experimental data on estimating the elasticity modulus of alloys by microindentation. Microstructural and X-ray diffraction analysis showed that the studied alloys subjected to quenching from the β-region contain a single-phase metastable solid β-solution prone to twinning under cold deformation as follows from the location of the alloys in the Bo‒Md diagram. Good agreement has been established between the calculated and experimental values of the elastic properties, as characterized by an increase in the shear and Young moduli and a decrease in the Poisson coefficient with an increase in the molybdenum equivalent, which determines the stability of a solid alloy β‑solution.

AB - The results of calculations of the elastic properties of quenched biocompatible titanium based Ti–26% Nb, Ti–26% Nb–3% Zr, Ti–26% Nb–6% Zr, Ti–26% Nb–3% Zr–1%Sn, and Ti–26% Nb–3% Zr–1% Sn–0.7Ta alloys (in at %) are presented and compared with the literature and experimental data on estimating the elasticity modulus of alloys by microindentation. Microstructural and X-ray diffraction analysis showed that the studied alloys subjected to quenching from the β-region contain a single-phase metastable solid β-solution prone to twinning under cold deformation as follows from the location of the alloys in the Bo‒Md diagram. Good agreement has been established between the calculated and experimental values of the elastic properties, as characterized by an increase in the shear and Young moduli and a decrease in the Poisson coefficient with an increase in the molybdenum equivalent, which determines the stability of a solid alloy β‑solution.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85147731440

UR - https://elibrary.ru/item.asp?id=59599648

U2 - 10.1134/S0031918X22601196

DO - 10.1134/S0031918X22601196

M3 - Article

VL - 123

SP - 1132

EP - 1138

JO - Physics of Metals and Metallography

JF - Physics of Metals and Metallography

SN - 0031-918X

IS - 11

ER -

ID: 34717484