Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • E. E. Timofeeva
  • E. Yu Panchenko
  • Yu I. Chumlyakov
  • H. J. Maier
  • G. Gerstein

Organisationseinheiten

Externe Organisationen

  • Tomsk State University
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Details

OriginalspracheEnglisch
Seiten (von - bis)320-323
Seitenumfang4
FachzeitschriftTechnical physics letters
Jahrgang43
Ausgabenummer3
PublikationsstatusVeröffentlicht - 18 Apr. 2017

Abstract

The high-temperature superelasticity and temperature dependence of the yield stress of 14M and L10 martensite in [001]-oriented single crystals of Ni54Fe19Ga27 (at %) in compression alloy have been studied. As the temperature increases, the sequence of stress-induced martensitic transformations (MTs) changes from L21–14M to L21–L10. The yield stress of L10 martensite weakly depends on the temperature and is 1.7 times lower than that of 14M martensite. The temperature interval of superelasticity in [001]-oriented single crystals of Ni54Fe19Ga27 under compression is determined by the growth of critical stresses with increasing temperature, the coefficient of strain-hardening, and the yield stress of L10 martensite.

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Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression. / Timofeeva, E. E.; Panchenko, E. Yu; Chumlyakov, Yu I. et al.
in: Technical physics letters, Jahrgang 43, Nr. 3, 18.04.2017, S. 320-323.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Timofeeva, EE, Panchenko, EY, Chumlyakov, YI, Maier, HJ & Gerstein, G 2017, 'Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression', Technical physics letters, Jg. 43, Nr. 3, S. 320-323. https://doi.org/10.1134/s1063785017030245
Timofeeva, E. E., Panchenko, E. Y., Chumlyakov, Y. I., Maier, H. J., & Gerstein, G. (2017). Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression. Technical physics letters, 43(3), 320-323. https://doi.org/10.1134/s1063785017030245
Timofeeva EE, Panchenko EY, Chumlyakov YI, Maier HJ, Gerstein G. Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression. Technical physics letters. 2017 Apr 18;43(3):320-323. doi: 10.1134/s1063785017030245
Timofeeva, E. E. ; Panchenko, E. Yu ; Chumlyakov, Yu I. et al. / Peculiarities of High-Temperature Superelasticity in Ni–Fe–Ga Single Crystals in Compression. in: Technical physics letters. 2017 ; Jahrgang 43, Nr. 3. S. 320-323.
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AU - Timofeeva, E. E.

AU - Panchenko, E. Yu

AU - Chumlyakov, Yu I.

AU - Maier, H. J.

AU - Gerstein, G.

PY - 2017/4/18

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N2 - The high-temperature superelasticity and temperature dependence of the yield stress of 14M and L10 martensite in [001]-oriented single crystals of Ni54Fe19Ga27 (at %) in compression alloy have been studied. As the temperature increases, the sequence of stress-induced martensitic transformations (MTs) changes from L21–14M to L21–L10. The yield stress of L10 martensite weakly depends on the temperature and is 1.7 times lower than that of 14M martensite. The temperature interval of superelasticity in [001]-oriented single crystals of Ni54Fe19Ga27 under compression is determined by the growth of critical stresses with increasing temperature, the coefficient of strain-hardening, and the yield stress of L10 martensite.

AB - The high-temperature superelasticity and temperature dependence of the yield stress of 14M and L10 martensite in [001]-oriented single crystals of Ni54Fe19Ga27 (at %) in compression alloy have been studied. As the temperature increases, the sequence of stress-induced martensitic transformations (MTs) changes from L21–14M to L21–L10. The yield stress of L10 martensite weakly depends on the temperature and is 1.7 times lower than that of 14M martensite. The temperature interval of superelasticity in [001]-oriented single crystals of Ni54Fe19Ga27 under compression is determined by the growth of critical stresses with increasing temperature, the coefficient of strain-hardening, and the yield stress of L10 martensite.

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