Transition in superelasticity for Ni 55-xCo xFe 18Ga 27 alloys due to strain glass transition

D. P. Wang; X. Chen; Z. H. Nie; N. Li; Z. L. Wang; Y. Ren; Y. D. Wang

doi:10.1209/0295-5075/98/46004

Transition in superelasticity for Ni _55-xCo _xFe ₁₈Ga ₂₇ alloys due to strain glass transition

D. P. Wang^*, X. Chen, Z. H. Nie, N. Li, Z. L. Wang, Y. Ren, Y. D. Wang

^*Corresponding author for this work

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

38 Citations (Scopus)

Abstract

Here we report a transition in superelastic hysteresis loop from sharp with plateau to smooth without plateau for a Ni _55-xCo _xFe ₁₈Ga ₂₇ (x=0-12) alloy system with increasing Co substituting for Ni up to 10 at.%. With the Co content reaching 10 at.%, the alloy exhibits the obvious characteristic of the strain glass transition, i.e., the frequency-dependent shift in temperature of the internal friction peak and frequency-dependent dip temperature, T _g, of the storage modulus following the Vogel-Fulcher relationship. The high-energy X-ray diffraction provides the direct evidence that the smooth hysteresis loops stem from a finite avalanche martensite transformation mode, inducing a long-range inhomogeneous stress field in the remained parent phase during deformation.

Original language	English
Article number	46004
Journal	EPL
Volume	98
Issue number	4
DOIs	https://doi.org/10.1209/0295-5075/98/46004
Publication status	Published - May 2012

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title = "Transition in superelasticity for Ni 55-xCo xFe 18Ga 27 alloys due to strain glass transition",

abstract = "Here we report a transition in superelastic hysteresis loop from sharp with plateau to smooth without plateau for a Ni 55-xCo xFe 18Ga 27 (x=0-12) alloy system with increasing Co substituting for Ni up to 10 at.%. With the Co content reaching 10 at.%, the alloy exhibits the obvious characteristic of the strain glass transition, i.e., the frequency-dependent shift in temperature of the internal friction peak and frequency-dependent dip temperature, T g, of the storage modulus following the Vogel-Fulcher relationship. The high-energy X-ray diffraction provides the direct evidence that the smooth hysteresis loops stem from a finite avalanche martensite transformation mode, inducing a long-range inhomogeneous stress field in the remained parent phase during deformation.",

author = "Wang, {D. P.} and X. Chen and Nie, {Z. H.} and N. Li and Wang, {Z. L.} and Y. Ren and Wang, {Y. D.}",

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T1 - Transition in superelasticity for Ni 55-xCo xFe 18Ga 27 alloys due to strain glass transition

AU - Wang, D. P.

AU - Chen, X.

AU - Nie, Z. H.

AU - Li, N.

AU - Wang, Z. L.

AU - Ren, Y.

AU - Wang, Y. D.

PY - 2012/5

Y1 - 2012/5

N2 - Here we report a transition in superelastic hysteresis loop from sharp with plateau to smooth without plateau for a Ni 55-xCo xFe 18Ga 27 (x=0-12) alloy system with increasing Co substituting for Ni up to 10 at.%. With the Co content reaching 10 at.%, the alloy exhibits the obvious characteristic of the strain glass transition, i.e., the frequency-dependent shift in temperature of the internal friction peak and frequency-dependent dip temperature, T g, of the storage modulus following the Vogel-Fulcher relationship. The high-energy X-ray diffraction provides the direct evidence that the smooth hysteresis loops stem from a finite avalanche martensite transformation mode, inducing a long-range inhomogeneous stress field in the remained parent phase during deformation.

AB - Here we report a transition in superelastic hysteresis loop from sharp with plateau to smooth without plateau for a Ni 55-xCo xFe 18Ga 27 (x=0-12) alloy system with increasing Co substituting for Ni up to 10 at.%. With the Co content reaching 10 at.%, the alloy exhibits the obvious characteristic of the strain glass transition, i.e., the frequency-dependent shift in temperature of the internal friction peak and frequency-dependent dip temperature, T g, of the storage modulus following the Vogel-Fulcher relationship. The high-energy X-ray diffraction provides the direct evidence that the smooth hysteresis loops stem from a finite avalanche martensite transformation mode, inducing a long-range inhomogeneous stress field in the remained parent phase during deformation.

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Transition in superelasticity for Ni _55-xCo _xFe ₁₈Ga ₂₇ alloys due to strain glass transition

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