On the energetics of the cubic-to-hexagonal transformations in TiAl+Mo alloys

Neda Abdoshahi; Mohammed Dehghani; Andrei V. Ruban; Martin Friák; Mojmír Šob; J. Spitaler; David Holec

doi:10.1016/j.actamat.2022.118268

On the energetics of the cubic-to-hexagonal transformations in TiAl+Mo alloys

Neda Abdoshahi
, Mohammed Dehghani
, Andrei V. Ruban
, Martin Friák
, Mojmír Šob
, J. Spitaler
, David Holec

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

Abstract

Diffusionless transformations allow access to metastable phases and enrich the materials design portfolio. They are well suited for atomistic modeling; nonetheless, they are challenging when involving disordered systems or alloys with complex compositions. This work presents a comprehensive study of transformation energetics between bcc and hcp ordered and disordered phases in the TiAl+Mo model alloy system. By employing two complementary techniques I. VASP-SQS, and II. EMTO-CPA, we can show that chemical disorder flattens the energy landscape but may introduce a small barrier. Unlike that, the energetics of ordered phases are barrier-less and hence would suggest a spontaneous transformation. Finally, we show that Mo stabilizes the bcc phases, leading to a barrier-less transformation hcpbcc for both ordered and disordered states when Mo content exceeds at.%.

Original language	English
Pages (from-to)	118268
Number of pages	9
Journal	Acta materialia
Volume	240.2022
Issue number	November
DOIs	https://doi.org/10.1016/j.actamat.2022.118268
Publication status	E-pub ahead of print - 24 Aug 2022

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

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10.1016/j.actamat.2022.118268

Cite this

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title = "On the energetics of the cubic-to-hexagonal transformations in TiAl+Mo alloys",

abstract = "Diffusionless transformations allow access to metastable phases and enrich the materials design portfolio. They are well suited for atomistic modeling; nonetheless, they are challenging when involving disordered systems or alloys with complex compositions. This work presents a comprehensive study of transformation energetics between bcc and hcp ordered and disordered phases in the TiAl+Mo model alloy system. By employing two complementary techniques I. VASP-SQS, and II. EMTO-CPA, we can show that chemical disorder flattens the energy landscape but may introduce a small barrier. Unlike that, the energetics of ordered phases are barrier-less and hence would suggest a spontaneous transformation. Finally, we show that Mo stabilizes the bcc phases, leading to a barrier-less transformation hcpbcc for both ordered and disordered states when Mo content exceeds at.\%.",

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T1 - On the energetics of the cubic-to-hexagonal transformations in TiAl+Mo alloys

AU - Abdoshahi, Neda

AU - Dehghani, Mohammed

AU - Ruban, Andrei V.

AU - Friák, Martin

AU - Šob, Mojmír

AU - Spitaler, J.

AU - Holec, David

PY - 2022/8/24

Y1 - 2022/8/24

N2 - Diffusionless transformations allow access to metastable phases and enrich the materials design portfolio. They are well suited for atomistic modeling; nonetheless, they are challenging when involving disordered systems or alloys with complex compositions. This work presents a comprehensive study of transformation energetics between bcc and hcp ordered and disordered phases in the TiAl+Mo model alloy system. By employing two complementary techniques I. VASP-SQS, and II. EMTO-CPA, we can show that chemical disorder flattens the energy landscape but may introduce a small barrier. Unlike that, the energetics of ordered phases are barrier-less and hence would suggest a spontaneous transformation. Finally, we show that Mo stabilizes the bcc phases, leading to a barrier-less transformation hcpbcc for both ordered and disordered states when Mo content exceeds at.%.

AB - Diffusionless transformations allow access to metastable phases and enrich the materials design portfolio. They are well suited for atomistic modeling; nonetheless, they are challenging when involving disordered systems or alloys with complex compositions. This work presents a comprehensive study of transformation energetics between bcc and hcp ordered and disordered phases in the TiAl+Mo model alloy system. By employing two complementary techniques I. VASP-SQS, and II. EMTO-CPA, we can show that chemical disorder flattens the energy landscape but may introduce a small barrier. Unlike that, the energetics of ordered phases are barrier-less and hence would suggest a spontaneous transformation. Finally, we show that Mo stabilizes the bcc phases, leading to a barrier-less transformation hcpbcc for both ordered and disordered states when Mo content exceeds at.%.

U2 - 10.1016/j.actamat.2022.118268

DO - 10.1016/j.actamat.2022.118268

M3 - Article

SN - 1359-6454

VL - 240.2022

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JO - Acta materialia

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