Characterization of deformation behavior of individual grains in polycrystalline Cu-Al-Mn superelastic alloy using white X-ray microbeam diffraction

Eui Pyo Kwon; Shigeo Sato; Shun Fujieda; Kozo Shinoda; Ryosuke Kainuma; Kentaro Kajiwara; Masugu Sato; Shigeru Suzuki

doi:10.3390/met5041845

Characterization of deformation behavior of individual grains in polycrystalline Cu-Al-Mn superelastic alloy using white X-ray microbeam diffraction

Eui Pyo Kwon, Shigeo Sato, Shun Fujieda, Kozo Shinoda, Ryosuke Kainuma, Kentaro Kajiwara, Masugu Sato, Shigeru Suzuki

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

4 Citations (Scopus)

Abstract

White X-ray microbeam diffraction was applied to investigate the microscopic deformation behavior of individual grains in a Cu-Al-Mn superelastic alloy. Strain/stresses were measured in situ at different positions in several grains having different orientations during a tensile test. The results indicated inhomogeneous stress distribution, both at the granular and intragranular scale. Strain/stress evolution showed reversible phenomena during the superelastic behavior of the tensile sample, probably because of the reversible martensitic transformation. However, strain recovery of the sample was incomplete due to the residual martensite, which results in the formation of local compressive residual stresses at grain boundary regions.

Original language	English
Pages (from-to)	1845-1856
Number of pages	12
Journal	Metals
Volume	5
Issue number	4
DOIs	https://doi.org/10.3390/met5041845
Publication status	Published - 2015 Oct 9

Keywords

Cu-Al-Mn alloys
Martensitic transformation
Microscopic stresses
Superelasticity
White X-ray microbeam diffraction

ASJC Scopus subject areas

Materials Science(all)

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10.3390/met5041845

Cite this

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title = "Characterization of deformation behavior of individual grains in polycrystalline Cu-Al-Mn superelastic alloy using white X-ray microbeam diffraction",

abstract = "White X-ray microbeam diffraction was applied to investigate the microscopic deformation behavior of individual grains in a Cu-Al-Mn superelastic alloy. Strain/stresses were measured in situ at different positions in several grains having different orientations during a tensile test. The results indicated inhomogeneous stress distribution, both at the granular and intragranular scale. Strain/stress evolution showed reversible phenomena during the superelastic behavior of the tensile sample, probably because of the reversible martensitic transformation. However, strain recovery of the sample was incomplete due to the residual martensite, which results in the formation of local compressive residual stresses at grain boundary regions.",

keywords = "Cu-Al-Mn alloys, Martensitic transformation, Microscopic stresses, Superelasticity, White X-ray microbeam diffraction",

author = "Kwon, {Eui Pyo} and Shigeo Sato and Shun Fujieda and Kozo Shinoda and Ryosuke Kainuma and Kentaro Kajiwara and Masugu Sato and Shigeru Suzuki",

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T1 - Characterization of deformation behavior of individual grains in polycrystalline Cu-Al-Mn superelastic alloy using white X-ray microbeam diffraction

AU - Kwon, Eui Pyo

AU - Sato, Shigeo

AU - Fujieda, Shun

AU - Shinoda, Kozo

AU - Kainuma, Ryosuke

AU - Kajiwara, Kentaro

AU - Sato, Masugu

AU - Suzuki, Shigeru

PY - 2015/10/9

Y1 - 2015/10/9

N2 - White X-ray microbeam diffraction was applied to investigate the microscopic deformation behavior of individual grains in a Cu-Al-Mn superelastic alloy. Strain/stresses were measured in situ at different positions in several grains having different orientations during a tensile test. The results indicated inhomogeneous stress distribution, both at the granular and intragranular scale. Strain/stress evolution showed reversible phenomena during the superelastic behavior of the tensile sample, probably because of the reversible martensitic transformation. However, strain recovery of the sample was incomplete due to the residual martensite, which results in the formation of local compressive residual stresses at grain boundary regions.

AB - White X-ray microbeam diffraction was applied to investigate the microscopic deformation behavior of individual grains in a Cu-Al-Mn superelastic alloy. Strain/stresses were measured in situ at different positions in several grains having different orientations during a tensile test. The results indicated inhomogeneous stress distribution, both at the granular and intragranular scale. Strain/stress evolution showed reversible phenomena during the superelastic behavior of the tensile sample, probably because of the reversible martensitic transformation. However, strain recovery of the sample was incomplete due to the residual martensite, which results in the formation of local compressive residual stresses at grain boundary regions.

KW - Cu-Al-Mn alloys

KW - Martensitic transformation

KW - Microscopic stresses

KW - Superelasticity

KW - White X-ray microbeam diffraction

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Characterization of deformation behavior of individual grains in polycrystalline Cu-Al-Mn superelastic alloy using white X-ray microbeam diffraction

Abstract

Keywords

ASJC Scopus subject areas

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