First-principles study to explore the possibility of inducing martensitic transformation in ordered B2 TiRu phase by alloying with Pd

Suid-Afrikaanse Tydskrif vir Natuurwetenskap en Tegnologie Pub Date : 2022-01-24 DOI:10.36303/satnt.2021cosaami.39

B. Ngobe, M. Phasha, IA Mwamba

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Abstract

Density functional theory (DFT) based on the first-principles technique, CASTEP, was used to explore the possibility of inducing martensitic transformation (MT) in a stable B2 TiRu alloy by systematic introduction of palladium (Pd) on the ruthenium (Ru) site. The structural, mechanical and electronic properties of pure, as well as, Pd-doped TiRu were calculated. The elastic constants obtained show that the addition of Pd seems to induce MT in the ordered TiRu, as shown by mechanical instability (C΄= C11-C12 < 0) of the B2 phase against shear deformation at 0 K. This is an indication that B2 is likely to transform to low symmetry phases such as L10/B19/B19’. Moreover, the calculated total density of states (T-DOS) also indicated that the addition of Pd shifted the Fermi level (EF) from the centre of the pseudogap of the ordered pure TiRu towards the right (anti-bonding region), rendering the resulting B2 ternary phase unstable at certain Pd compositions higher than 10 atomic percent (at.%). The predicted induced martensitic transformation is one of the key characteristics of shape memory behaviour in B2 Ti-based alloys such as NiTi, TiPd and TiPt. Further work on the possible low temperature phases resulting from B2 Ti-Ru-Pd ternary alloys is underway.

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利用第一性原理研究Pd合金诱导有序B2 TiRu相马氏体转变的可能性

采用基于第一性原理技术CASTEP的密度泛函理论(DFT)，探讨了在稳定的B2 TiRu合金中系统地在钌(Ru)位点上引入钯(Pd)诱导马氏体转变(MT)的可能性。计算了纯TiRu和掺pd TiRu的结构、力学和电子性能。得到的弹性常数表明，Pd的加入似乎诱发了有序TiRu中的MT，这体现在B2相在0 K时抗剪切变形的力学不稳定性(C΄= C11-C12 < 0)。这表明B2很可能转变为低对称相，如L10/B19/B19’。此外，计算的总态密度(T-DOS)也表明，Pd的加入将费米能级(EF)从有序纯TiRu的赝隙中心向右(反键区)移动，使得所得到的B2三元相在Pd成分高于10% (at.%)时不稳定。预测的诱导马氏体相变是nii、TiPd和TiPt等B2 ti基合金形状记忆行为的关键特征之一。进一步研究B2 Ti-Ru-Pd三元合金可能产生的低温相的工作正在进行中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Suid-Afrikaanse Tydskrif vir Natuurwetenskap en Tegnologie

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