Issue 2, 2022

Local chemical fluctuation mediated ultra-sluggish martensitic transformation in high-entropy intermetallics

Abstract

Superelasticity associated with martensitic transformation has found a broad range of engineering applications, such as in low-temperature devices in the aerospace industry. Nevertheless, the narrow working temperature range and strong temperature sensitivity of the first-order phase transformation significantly hinder the usage of smart metallic components in many critical areas. Here, we scrutinized the phase transformation behavior and mechanical properties of multicomponent B2-structured intermetallic compounds. Strikingly, the (TiZrHfCuNi)83.3Co16.7 high-entropy intermetallics (HEIs) show superelasticity with high critical stress over 500 MPa, high fracture strength of over 2700 MPa, and small temperature sensitivity in a wide range of temperatures over 220 K. The complex sublattice occupation in these HEIs facilitates formation of nano-scaled local chemical fluctuation and then elastic confinement, which leads to an ultra-sluggish martensitic transformation. The thermal activation of the martensitic transformation was fully suppressed while the stress activation is severely retarded with an enhanced threshold stress over a wide temperature range. Moreover, the high configurational entropy also results in a small entropy change during phase transformation, consequently giving rise to the low temperature sensitivity of the superelasticity stress. Our findings may provide a new paradigm for the development of advanced superelastic alloys, and shed new insights into understanding of martensitic transformation in general.

Graphical abstract: Local chemical fluctuation mediated ultra-sluggish martensitic transformation in high-entropy intermetallics

Supplementary files

Article information

Article type
Communication
Submitted
02 Oct 2021
Accepted
02 Dec 2021
First published
02 Dec 2021

Mater. Horiz., 2022,9, 804-814

Author version available

Local chemical fluctuation mediated ultra-sluggish martensitic transformation in high-entropy intermetallics

Y. Wu, F. Zhang, F. Li, Y. Yang, J. Zhu, H. Wu, Y. Zhang, R. Qu, Z. Zhang, Z. Nie, Y. Ren, Y. Wang, X. Liu, H. Wang and Z. Lu, Mater. Horiz., 2022, 9, 804 DOI: 10.1039/D1MH01612A

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