Direct evidence for stress-induced transformation between coexisting multiple martensites in a Ni-Mn-Ga multifunctional alloy

L. Huang; D. Y. Cong; Z. L. Wang; Z. H. Nie; Y. H. Dong; Y. Zhang; Y. Ren; Y. D. Wang

doi:10.1088/0022-3727/48/26/265304

Direct evidence for stress-induced transformation between coexisting multiple martensites in a Ni-Mn-Ga multifunctional alloy

L. Huang
, D. Y. Cong
, Z. L. Wang
, Z. H. Nie
, Y. H. Dong
, Y. Zhang
, Y. Ren
, Y. D. Wang

School of Material Science and Engineering

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

16 Citations (Scopus)

Abstract

The structural response of coexisting multiple martensites to stress field in a Ni-Mn-Ga multifunctional alloy was investigated by the in situ high-energy x-ray diffraction technique. Stress-induced transformation between coexisting multiple martensites was observed at 110 K, at which five-layered modulated (5M), seven-layered modulated (7M) and non-modulated (NM) martensites coexist. We found that a tiny stress of as low as 0.5 MPa could trigger the transformation from 5M and 7M martensites to NM martensite and this transformation is partly reversible. Besides the transformation between coexisting multiple martensites, rearrangement of martensite variants also occurs during loading, at least at high stress levels. The present study is instructive for designing advanced multifunctional alloys with easy actuation.

Original language	English
Article number	265304
Journal	Journal Physics D: Applied Physics
Volume	48
Issue number	26
DOIs	https://doi.org/10.1088/0022-3727/48/26/265304
Publication status	Published - 8 Jul 2015

Keywords

external-field-induced structural transformation
magnetic shape memory alloy
martensitic transformation

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10.1088/0022-3727/48/26/265304

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title = "Direct evidence for stress-induced transformation between coexisting multiple martensites in a Ni-Mn-Ga multifunctional alloy",

abstract = "The structural response of coexisting multiple martensites to stress field in a Ni-Mn-Ga multifunctional alloy was investigated by the in situ high-energy x-ray diffraction technique. Stress-induced transformation between coexisting multiple martensites was observed at 110 K, at which five-layered modulated (5M), seven-layered modulated (7M) and non-modulated (NM) martensites coexist. We found that a tiny stress of as low as 0.5 MPa could trigger the transformation from 5M and 7M martensites to NM martensite and this transformation is partly reversible. Besides the transformation between coexisting multiple martensites, rearrangement of martensite variants also occurs during loading, at least at high stress levels. The present study is instructive for designing advanced multifunctional alloys with easy actuation.",

keywords = "external-field-induced structural transformation, magnetic shape memory alloy, martensitic transformation",

author = "L. Huang and Cong, \{D. Y.\} and Wang, \{Z. L.\} and Nie, \{Z. H.\} and Dong, \{Y. H.\} and Y. Zhang and Y. Ren and Wang, \{Y. D.\}",

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doi = "10.1088/0022-3727/48/26/265304",

language = "English",

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TY - JOUR

T1 - Direct evidence for stress-induced transformation between coexisting multiple martensites in a Ni-Mn-Ga multifunctional alloy

AU - Huang, L.

AU - Cong, D. Y.

AU - Wang, Z. L.

AU - Nie, Z. H.

AU - Dong, Y. H.

AU - Zhang, Y.

AU - Ren, Y.

AU - Wang, Y. D.

PY - 2015/7/8

Y1 - 2015/7/8

N2 - The structural response of coexisting multiple martensites to stress field in a Ni-Mn-Ga multifunctional alloy was investigated by the in situ high-energy x-ray diffraction technique. Stress-induced transformation between coexisting multiple martensites was observed at 110 K, at which five-layered modulated (5M), seven-layered modulated (7M) and non-modulated (NM) martensites coexist. We found that a tiny stress of as low as 0.5 MPa could trigger the transformation from 5M and 7M martensites to NM martensite and this transformation is partly reversible. Besides the transformation between coexisting multiple martensites, rearrangement of martensite variants also occurs during loading, at least at high stress levels. The present study is instructive for designing advanced multifunctional alloys with easy actuation.

AB - The structural response of coexisting multiple martensites to stress field in a Ni-Mn-Ga multifunctional alloy was investigated by the in situ high-energy x-ray diffraction technique. Stress-induced transformation between coexisting multiple martensites was observed at 110 K, at which five-layered modulated (5M), seven-layered modulated (7M) and non-modulated (NM) martensites coexist. We found that a tiny stress of as low as 0.5 MPa could trigger the transformation from 5M and 7M martensites to NM martensite and this transformation is partly reversible. Besides the transformation between coexisting multiple martensites, rearrangement of martensite variants also occurs during loading, at least at high stress levels. The present study is instructive for designing advanced multifunctional alloys with easy actuation.

KW - external-field-induced structural transformation

KW - magnetic shape memory alloy

KW - martensitic transformation

UR - https://www.scopus.com/pages/publications/84930959288

U2 - 10.1088/0022-3727/48/26/265304

DO - 10.1088/0022-3727/48/26/265304

M3 - Article

AN - SCOPUS:84930959288

SN - 0022-3727

VL - 48

JO - Journal Physics D: Applied Physics

JF - Journal Physics D: Applied Physics

IS - 26

M1 - 265304

ER -

Direct evidence for stress-induced transformation between coexisting multiple martensites in a Ni-Mn-Ga multifunctional alloy

Abstract

Keywords

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