Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation

Fei Xiao; Xiao Liang; Xuejun Jin; Zhihua Nie; Tomoyuki Kakeshita; Takashi Fukuda

doi:10.1016/j.actamat.2016.07.030

Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation

Fei Xiao, Xiao Liang, Xuejun Jin^*, Zhihua Nie, Tomoyuki Kakeshita, Takashi Fukuda

^*Corresponding author for this work

School of Material Science and Engineering

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

22 Citations (Scopus)

Abstract

The elastocaloric effect under tensile stress along the [001] direction has been investigated in an Fe-31.2Pd (at.%) alloy, which exhibits a weak first-order martensitic transformation at 230 K from a face-centered cubic structure to a face-centered tetragonal (c/a < 1) structure. A stable temperature variation of 1.9 K was observed at room temperature (∼288 K) up to 10000 cycles of sinusoidal tensile stress (200 MPa). The stress-strain curve shows a macroscopic strain of 1.2% under 200 MPa with a negligible stress hysteresis. The macroscopic strain coincides with the lattice strain obtained by in situ X-ray diffraction. A significant extension of the 200 reflection, perpendicular to the tensile direction, was observed. This peak extension could be the way the specimen realizes a high elastic strain, even under tensile stress.

Original language	English
Pages (from-to)	88-94
Number of pages	7
Journal	Acta Materialia
Volume	118
DOIs	https://doi.org/10.1016/j.actamat.2016.07.030
Publication status	Published - 1 Oct 2016

Keywords

Elastic behavior
Elastocaloric effect
Martensitic phase transformation
Shape memory alloy

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10.1016/j.actamat.2016.07.030

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title = "Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation",

abstract = "The elastocaloric effect under tensile stress along the [001] direction has been investigated in an Fe-31.2Pd (at.%) alloy, which exhibits a weak first-order martensitic transformation at 230 K from a face-centered cubic structure to a face-centered tetragonal (c/a < 1) structure. A stable temperature variation of 1.9 K was observed at room temperature (∼288 K) up to 10000 cycles of sinusoidal tensile stress (200 MPa). The stress-strain curve shows a macroscopic strain of 1.2% under 200 MPa with a negligible stress hysteresis. The macroscopic strain coincides with the lattice strain obtained by in situ X-ray diffraction. A significant extension of the 200 reflection, perpendicular to the tensile direction, was observed. This peak extension could be the way the specimen realizes a high elastic strain, even under tensile stress.",

keywords = "Elastic behavior, Elastocaloric effect, Martensitic phase transformation, Shape memory alloy",

author = "Fei Xiao and Xiao Liang and Xuejun Jin and Zhihua Nie and Tomoyuki Kakeshita and Takashi Fukuda",

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T1 - Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation

AU - Xiao, Fei

AU - Liang, Xiao

AU - Jin, Xuejun

AU - Nie, Zhihua

AU - Kakeshita, Tomoyuki

AU - Fukuda, Takashi

PY - 2016/10/1

Y1 - 2016/10/1

N2 - The elastocaloric effect under tensile stress along the [001] direction has been investigated in an Fe-31.2Pd (at.%) alloy, which exhibits a weak first-order martensitic transformation at 230 K from a face-centered cubic structure to a face-centered tetragonal (c/a < 1) structure. A stable temperature variation of 1.9 K was observed at room temperature (∼288 K) up to 10000 cycles of sinusoidal tensile stress (200 MPa). The stress-strain curve shows a macroscopic strain of 1.2% under 200 MPa with a negligible stress hysteresis. The macroscopic strain coincides with the lattice strain obtained by in situ X-ray diffraction. A significant extension of the 200 reflection, perpendicular to the tensile direction, was observed. This peak extension could be the way the specimen realizes a high elastic strain, even under tensile stress.

AB - The elastocaloric effect under tensile stress along the [001] direction has been investigated in an Fe-31.2Pd (at.%) alloy, which exhibits a weak first-order martensitic transformation at 230 K from a face-centered cubic structure to a face-centered tetragonal (c/a < 1) structure. A stable temperature variation of 1.9 K was observed at room temperature (∼288 K) up to 10000 cycles of sinusoidal tensile stress (200 MPa). The stress-strain curve shows a macroscopic strain of 1.2% under 200 MPa with a negligible stress hysteresis. The macroscopic strain coincides with the lattice strain obtained by in situ X-ray diffraction. A significant extension of the 200 reflection, perpendicular to the tensile direction, was observed. This peak extension could be the way the specimen realizes a high elastic strain, even under tensile stress.

KW - Elastic behavior

KW - Elastocaloric effect

KW - Martensitic phase transformation

KW - Shape memory alloy

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DO - 10.1016/j.actamat.2016.07.030

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VL - 118

SP - 88

EP - 94

JO - Acta Materialia

JF - Acta Materialia

ER -

Stable elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation

Abstract

Keywords

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