Deformation twinning in Ni 2MnGa

R. C. Pond; B. Muntifering; P. Müllner

doi:10.1016/j.actamat.2012.03.045

Deformation twinning in Ni ₂MnGa

R. C. Pond, B. Muntifering, P. Müllner

Micron School of Materials Science and Engineering

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

44 Scopus citations

Abstract

Deformation twinning is investigated in the martensitic phase of a Ni _46.75Mn ₃₄Ga _19.25 (at.%) alloy. X-ray and electron diffraction are used to establish the crystallography of the non-modulated tetragonal martensite, and transmission electron microscopy is employed to deduce the twinning parameters. It is convenient to define the twinning parameters with respect to a "monoclinic" unit cell, designated 2M: then K ₁, η ₁, K ₂, and η ₂ are (0 0 1), [1 0 0], (1 0 0), and [0 0 1] respectively. The Burgers vector of the active twinning disconnections is close to 1/6[1 0 0] and the disconnections are associated with steps of height d ₍₀₀₂₎. These defects are expected to be highly mobile since their motion does not require atomic shuffling. It is shown that periodic arrangements of two layer twins produce modulated crystal structures, such as 14M.

Original language	English
Pages (from-to)	3976-3984
Number of pages	9
Journal	Materials Science and Engineering Faculty Research & Creative Works
Volume	60
Issue number	9
DOIs	https://doi.org/10.1016/j.actamat.2012.03.045
State	Published - May 2012

Keywords

Deformation structure
Dislocations
Heusler phases
Transmission electron microscopy
Twinning

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title = "Deformation twinning in Ni 2MnGa",

abstract = "Deformation twinning is investigated in the martensitic phase of a Ni 46.75Mn 34Ga 19.25 (at.%) alloy. X-ray and electron diffraction are used to establish the crystallography of the non-modulated tetragonal martensite, and transmission electron microscopy is employed to deduce the twinning parameters. It is convenient to define the twinning parameters with respect to a {"}monoclinic{"} unit cell, designated 2M: then K 1, η 1, K 2, and η 2 are (0 0 1), [1 0 0], (1 0 0), and [0 0 1] respectively. The Burgers vector of the active twinning disconnections is close to 1/6[1 0 0] and the disconnections are associated with steps of height d (002). These defects are expected to be highly mobile since their motion does not require atomic shuffling. It is shown that periodic arrangements of two layer twins produce modulated crystal structures, such as 14M.",

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T1 - Deformation twinning in Ni 2MnGa

AU - Pond, R. C.

AU - Muntifering, B.

AU - Müllner, P.

PY - 2012/5

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N2 - Deformation twinning is investigated in the martensitic phase of a Ni 46.75Mn 34Ga 19.25 (at.%) alloy. X-ray and electron diffraction are used to establish the crystallography of the non-modulated tetragonal martensite, and transmission electron microscopy is employed to deduce the twinning parameters. It is convenient to define the twinning parameters with respect to a "monoclinic" unit cell, designated 2M: then K 1, η 1, K 2, and η 2 are (0 0 1), [1 0 0], (1 0 0), and [0 0 1] respectively. The Burgers vector of the active twinning disconnections is close to 1/6[1 0 0] and the disconnections are associated with steps of height d (002). These defects are expected to be highly mobile since their motion does not require atomic shuffling. It is shown that periodic arrangements of two layer twins produce modulated crystal structures, such as 14M.

AB - Deformation twinning is investigated in the martensitic phase of a Ni 46.75Mn 34Ga 19.25 (at.%) alloy. X-ray and electron diffraction are used to establish the crystallography of the non-modulated tetragonal martensite, and transmission electron microscopy is employed to deduce the twinning parameters. It is convenient to define the twinning parameters with respect to a "monoclinic" unit cell, designated 2M: then K 1, η 1, K 2, and η 2 are (0 0 1), [1 0 0], (1 0 0), and [0 0 1] respectively. The Burgers vector of the active twinning disconnections is close to 1/6[1 0 0] and the disconnections are associated with steps of height d (002). These defects are expected to be highly mobile since their motion does not require atomic shuffling. It is shown that periodic arrangements of two layer twins produce modulated crystal structures, such as 14M.

KW - Deformation structure

KW - Dislocations

KW - Heusler phases

KW - Transmission electron microscopy

KW - Twinning

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Deformation twinning in Ni ₂MnGa

Abstract

Keywords

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