Publication detail

Microfabricated ferromagnetic-shape-memory Heuslers: The geometry and size effects

GHAHFAROKHI, M. ARREGI URIBEETXEBARRIA, J. CASOLI, F. HORKÝ, M. CABASSI, R. UHLÍŘ, V. ALBERTINI, F.

Original Title

Microfabricated ferromagnetic-shape-memory Heuslers: The geometry and size effects

Type

journal article in Web of Science

Language

English

Original Abstract

Ferromagnetic-shape-memory (FSM) Heuslers are a class of smart materials, promising for integration into miniaturized thermo/magnetomechanical devices, applicable in automotive, aerospace, biology, and robotics fields. In addition to compactness and mechanical simplicity, it is crucial for the material to maintain its properties at micro and nanometer scales. This study evidences the effects of lateral dimension and geometry on the properties of FSM Heuslers in patterned epitaxially grown Ni-Mn-Ga films. In particular, arrays of microstructures with lateral sizes down to the micrometer range, having different shapes and orientations with respect to the substrate edges, are investigated. The key properties of the material are stable after the microfabrication process: the martensitic transition temperatures increase by less than 3 K and thermal hysteresis changes by only 2 K. Notably, the size and geometry (i.e. shape and orientation) of the patterned microstructures are reported to be a suitable tool for controlling the martensitic configuration. The study demonstrates selective response of a specific type of martensitic twin boundaries, i.e., X-type twin boundaries along [110] MgO and [1-10] MgO, to the shape and orientation of the microstructures showing a twin boundary selection of up to similar to 96%. The effects of lateral size, shape, and orientation on the martensitic and magnetic properties of the lithographically patterned structures are discussed. (C) 2021 Elsevier Ltd. All rights reserved.

Keywords

Ferromagnetic shape memory alloys; Multifunctional Heuslers; Martensitic phase transformation; Twin boundaries; Lithography; Microfabrication

Authors

GHAHFAROKHI, M.; ARREGI URIBEETXEBARRIA, J.; CASOLI, F.; HORKÝ, M.; CABASSI, R.; UHLÍŘ, V.; ALBERTINI, F.

Released

1. 6. 2021

Publisher

ELSEVIER

Location

AMSTERDAM

ISBN

2352-9407

Periodical

Applied Materials Today

Year of study

23

Number

1

State

Kingdom of the Netherlands

Pages from

101058-1

Pages to

101058-11

Pages count

11

URL