Effect of grain size and texture on superelasticity of Cu-Al-Mn-based shape memory alloys

Y. Sutou; T. Omori; J. J. Wang; R. Kainuma; K. Ishida

doi:10.1051/jp4:2003936

Effect of grain size and texture on superelasticity of Cu-Al-Mn-based shape memory alloys

Y. Sutou, T. Omori, J. J. Wang, R. Kainuma, K. Ishida

Tohoku University

Research output: Contribution to journal › Conference article › peer-review

33 Citations (Scopus)

Abstract

The effect of texture and β grain size on the superelasticity (SE) in Cu-Al-Mn-based alloys was investigated by tensile testing. The SE strain increases with increasing relative grain size d/t (d: grain size and t: specimen thickness), which is explained as being due to a relaxation of the grain constraint in the polycrystalline specimens. On the other hand, Cu-Al-Mn-Ni alloy recrystallized after heavy cold-rolling in the fcc (α) + bcc (β) two-phase region showed a {112}<110> strong recrystallization texture. The SE strain depends on the testing direction on the textured sheet specimens, and the largest value of SE strain was obtained in the specimen tested along the direction of 45° from the rolling direction (RD).

Original language	English
Pages (from-to)	511-514
Number of pages	4
Journal	Journal De Physique. IV : JP
Volume	112 I
DOIs	https://doi.org/10.1051/jp4:2003936
Publication status	Published - 2003 Oct
Event	International Conference on Martensitic Transformations - Espoo, Finland Duration: 2002 Jun 10 → 2002 Jun 14

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title = "Effect of grain size and texture on superelasticity of Cu-Al-Mn-based shape memory alloys",

abstract = "The effect of texture and β grain size on the superelasticity (SE) in Cu-Al-Mn-based alloys was investigated by tensile testing. The SE strain increases with increasing relative grain size d/t (d: grain size and t: specimen thickness), which is explained as being due to a relaxation of the grain constraint in the polycrystalline specimens. On the other hand, Cu-Al-Mn-Ni alloy recrystallized after heavy cold-rolling in the fcc (α) + bcc (β) two-phase region showed a {112}<110> strong recrystallization texture. The SE strain depends on the testing direction on the textured sheet specimens, and the largest value of SE strain was obtained in the specimen tested along the direction of 45° from the rolling direction (RD).",

author = "Y. Sutou and T. Omori and Wang, {J. J.} and R. Kainuma and K. Ishida",

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T1 - Effect of grain size and texture on superelasticity of Cu-Al-Mn-based shape memory alloys

AU - Sutou, Y.

AU - Omori, T.

AU - Wang, J. J.

AU - Kainuma, R.

AU - Ishida, K.

PY - 2003/10

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N2 - The effect of texture and β grain size on the superelasticity (SE) in Cu-Al-Mn-based alloys was investigated by tensile testing. The SE strain increases with increasing relative grain size d/t (d: grain size and t: specimen thickness), which is explained as being due to a relaxation of the grain constraint in the polycrystalline specimens. On the other hand, Cu-Al-Mn-Ni alloy recrystallized after heavy cold-rolling in the fcc (α) + bcc (β) two-phase region showed a {112}<110> strong recrystallization texture. The SE strain depends on the testing direction on the textured sheet specimens, and the largest value of SE strain was obtained in the specimen tested along the direction of 45° from the rolling direction (RD).

AB - The effect of texture and β grain size on the superelasticity (SE) in Cu-Al-Mn-based alloys was investigated by tensile testing. The SE strain increases with increasing relative grain size d/t (d: grain size and t: specimen thickness), which is explained as being due to a relaxation of the grain constraint in the polycrystalline specimens. On the other hand, Cu-Al-Mn-Ni alloy recrystallized after heavy cold-rolling in the fcc (α) + bcc (β) two-phase region showed a {112}<110> strong recrystallization texture. The SE strain depends on the testing direction on the textured sheet specimens, and the largest value of SE strain was obtained in the specimen tested along the direction of 45° from the rolling direction (RD).

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Effect of grain size and texture on superelasticity of Cu-Al-Mn-based shape memory alloys

Abstract

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