Stress-strain-temperature behaviour of [001] single crystals of Co 49Ni21Ga30 ferromagnetic shape memory alloy under compression

Research output: Contribution to journalArticleResearchpeer review

Authors

  • J. Dadda
  • D. Canadinc
  • H. J. Maier
  • I. Karaman
  • H. E. Karaca
  • Y. I. Chumlyakov

External Research Organisations

  • Paderborn University
  • Texas A and M University
  • Tomsk State University
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Details

Original languageEnglish
Pages (from-to)2313-2322
Number of pages10
JournalPhilosophical Magazine
Volume87
Issue number16
Publication statusPublished - 2007
Externally publishedYes

Abstract

The conventional shape memory effect (SME) and pseudoelasticity (PE) in as-grown [100] single crystals of Co49Ni21Ga30 alloy under compression are reported. The parent single crystals exhibit about 5% transformation strain at compressive stress levels as low as 4 MPa, and a pseudoelastic strain of 4.5%. Complete PE was observed in the temperature range from 35 to 285C, along with increasing stress hysteresis with temperature. The latter is attributed to increasing number of variants and the corresponding variant-variant interactions. We demonstrate that the current material can be utilized in applications that demand high strength at elevated temperatures. Moreover, the current results also indicate the potential of this material to exhibit magnetic shape memory effect, which could broaden the scope of utility of this material upon further research.

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Cite this

Stress-strain-temperature behaviour of [001] single crystals of Co 49Ni21Ga30 ferromagnetic shape memory alloy under compression. / Dadda, J.; Canadinc, D.; Maier, H. J. et al.
In: Philosophical Magazine, Vol. 87, No. 16, 2007, p. 2313-2322.

Research output: Contribution to journalArticleResearchpeer review

Dadda J, Canadinc D, Maier HJ, Karaman I, Karaca HE, Chumlyakov YI. Stress-strain-temperature behaviour of [001] single crystals of Co 49Ni21Ga30 ferromagnetic shape memory alloy under compression. Philosophical Magazine. 2007;87(16):2313-2322. doi: 10.1080/14786430601175524
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title = "Stress-strain-temperature behaviour of [001] single crystals of Co 49Ni21Ga30 ferromagnetic shape memory alloy under compression",
abstract = "The conventional shape memory effect (SME) and pseudoelasticity (PE) in as-grown [100] single crystals of Co49Ni21Ga30 alloy under compression are reported. The parent single crystals exhibit about 5% transformation strain at compressive stress levels as low as 4 MPa, and a pseudoelastic strain of 4.5%. Complete PE was observed in the temperature range from 35 to 285C, along with increasing stress hysteresis with temperature. The latter is attributed to increasing number of variants and the corresponding variant-variant interactions. We demonstrate that the current material can be utilized in applications that demand high strength at elevated temperatures. Moreover, the current results also indicate the potential of this material to exhibit magnetic shape memory effect, which could broaden the scope of utility of this material upon further research.",
author = "J. Dadda and D. Canadinc and Maier, {H. J.} and I. Karaman and Karaca, {H. E.} and Chumlyakov, {Y. I.}",
note = "Funding Information: The work presented in this paper was funded by Deutsche Forschungsgemeinschaft, US Army Research Office, Contract No DAAD 19-02-1-0261, US National Science Foundation – Division of Materials Research, Contract No 0244126, and the US Civilian Research and Development Foundation, Grant No RE1-2525-TO-03. The Russian part of the work was supported by RFFI grants 05-08-17915a and 06-08-08011.",
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T1 - Stress-strain-temperature behaviour of [001] single crystals of Co 49Ni21Ga30 ferromagnetic shape memory alloy under compression

AU - Dadda, J.

AU - Canadinc, D.

AU - Maier, H. J.

AU - Karaman, I.

AU - Karaca, H. E.

AU - Chumlyakov, Y. I.

N1 - Funding Information: The work presented in this paper was funded by Deutsche Forschungsgemeinschaft, US Army Research Office, Contract No DAAD 19-02-1-0261, US National Science Foundation – Division of Materials Research, Contract No 0244126, and the US Civilian Research and Development Foundation, Grant No RE1-2525-TO-03. The Russian part of the work was supported by RFFI grants 05-08-17915a and 06-08-08011.

PY - 2007

Y1 - 2007

N2 - The conventional shape memory effect (SME) and pseudoelasticity (PE) in as-grown [100] single crystals of Co49Ni21Ga30 alloy under compression are reported. The parent single crystals exhibit about 5% transformation strain at compressive stress levels as low as 4 MPa, and a pseudoelastic strain of 4.5%. Complete PE was observed in the temperature range from 35 to 285C, along with increasing stress hysteresis with temperature. The latter is attributed to increasing number of variants and the corresponding variant-variant interactions. We demonstrate that the current material can be utilized in applications that demand high strength at elevated temperatures. Moreover, the current results also indicate the potential of this material to exhibit magnetic shape memory effect, which could broaden the scope of utility of this material upon further research.

AB - The conventional shape memory effect (SME) and pseudoelasticity (PE) in as-grown [100] single crystals of Co49Ni21Ga30 alloy under compression are reported. The parent single crystals exhibit about 5% transformation strain at compressive stress levels as low as 4 MPa, and a pseudoelastic strain of 4.5%. Complete PE was observed in the temperature range from 35 to 285C, along with increasing stress hysteresis with temperature. The latter is attributed to increasing number of variants and the corresponding variant-variant interactions. We demonstrate that the current material can be utilized in applications that demand high strength at elevated temperatures. Moreover, the current results also indicate the potential of this material to exhibit magnetic shape memory effect, which could broaden the scope of utility of this material upon further research.

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JO - Philosophical Magazine

JF - Philosophical Magazine

SN - 1478-6435

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