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Deformation mechanisms in a metastable beta titanium twinning induced plasticity alloy with high yield strength and high strain hardening rate

Deformation mechanisms in a metastable beta titanium twinning induced plasticity alloy with high yield strength and high strain hardening rate
Deformation mechanisms in a metastable beta titanium twinning induced plasticity alloy with high yield strength and high strain hardening rate
Metastable β titanium alloys with both twinning (TWIP) and martensite transformation (TRIP) usually exhibit a low yield strength of between 200 and 500 MPa, but high strain hardening rate and large uniform elongation. Alloys that exhibit twinning on a single system provide a higher yield strength, but a lower strain hardening rate. Here, for the first time, we report a new alloy (Ti-7Mo-3Cr wt%) with both high yield strength (695 MPa) and high work hardening rate (∼1900 MPa) and a substantial 33.3% uniform elongation. The deformation mechanisms were systematically investigated using EBSD and TEM for samples strained to 1.3%, 5% and 16%. The high yield strength was achieved through initial deformation mechanisms of two twin systems, namely both {332}<113> and {112}<111> twinning. Importantly, the martensite transformation was suppressed at this stage of deformation. The combination of two twin systems, with approximately the same intensity, resulted in a high strain hardening rate (1600 MPa–1900 MPa), much greater compared to alloys that exhibit a single twin system. Moreover, the TRIP effect was observed at strains greater than 5%, which also contributed to the high strain hardening rate large uniform elongation.
1359-6454
301-314
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e
Huang, Yuhe
5f7cd073-a1d7-43f4-8950-41e6c3380e67
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Knowles, Alexander J.
f71ef220-af95-45a3-a103-1385e1ac0d6f
Ma, Le
925eef1a-d689-4b6f-b987-ac0b9bcbad21
Dye, David
d46698b7-9fec-4f18-a1ba-e4714410f873
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e
Huang, Yuhe
5f7cd073-a1d7-43f4-8950-41e6c3380e67
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Knowles, Alexander J.
f71ef220-af95-45a3-a103-1385e1ac0d6f
Ma, Le
925eef1a-d689-4b6f-b987-ac0b9bcbad21
Dye, David
d46698b7-9fec-4f18-a1ba-e4714410f873
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f

Gao, Junheng, Huang, Yuhe, Guan, Dikai, Knowles, Alexander J., Ma, Le, Dye, David and Rainforth, W. Mark (2018) Deformation mechanisms in a metastable beta titanium twinning induced plasticity alloy with high yield strength and high strain hardening rate. Acta Materialia, 152, 301-314. (doi:10.1016/j.actamat.2018.04.035).

Record type: Article

Abstract

Metastable β titanium alloys with both twinning (TWIP) and martensite transformation (TRIP) usually exhibit a low yield strength of between 200 and 500 MPa, but high strain hardening rate and large uniform elongation. Alloys that exhibit twinning on a single system provide a higher yield strength, but a lower strain hardening rate. Here, for the first time, we report a new alloy (Ti-7Mo-3Cr wt%) with both high yield strength (695 MPa) and high work hardening rate (∼1900 MPa) and a substantial 33.3% uniform elongation. The deformation mechanisms were systematically investigated using EBSD and TEM for samples strained to 1.3%, 5% and 16%. The high yield strength was achieved through initial deformation mechanisms of two twin systems, namely both {332}<113> and {112}<111> twinning. Importantly, the martensite transformation was suppressed at this stage of deformation. The combination of two twin systems, with approximately the same intensity, resulted in a high strain hardening rate (1600 MPa–1900 MPa), much greater compared to alloys that exhibit a single twin system. Moreover, the TRIP effect was observed at strains greater than 5%, which also contributed to the high strain hardening rate large uniform elongation.

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Published date: 15 June 2018
Learn more about Engineering Sciences research

Identifiers

Local EPrints ID: 475009
URI: http://eprints.soton.ac.uk/id/eprint/475009
DOI: doi:10.1016/j.actamat.2018.04.035
ISSN: 1359-6454
PURE UUID: 0d8f8367-5745-45df-a196-a4c492eb3d3d
ORCID for Dikai Guan: ORCID iD orcid.org/0000-0002-3953-2878

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Date deposited: 08 Mar 2023 17:54
Last modified: 17 Mar 2024 04:17

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Contributors

Author: Junheng Gao
Author: Yuhe Huang
Author: Dikai Guan ORCID iD
Author: Alexander J. Knowles
Author: Le Ma
Author: David Dye
Author: W. Mark Rainforth

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