Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Anna Eftifeeva
  • Elena Panchenko
  • Yuriy Chumlyakov
  • Eleonora Yanushonite
  • Gregory Gerstein
  • Hans Jürgen Maier

Organisationseinheiten

Externe Organisationen

  • Tomsk State University
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Details

OriginalspracheEnglisch
Seiten (von - bis)963-971
Seitenumfang9
FachzeitschriftJournal of alloys and compounds
Jahrgang787
Frühes Online-Datum16 Feb. 2019
PublikationsstatusVeröffentlicht - 30 Mai 2019

Abstract

The effects of stress-free and stress-assisted aging at 673 K on microstructures, thermoelastic stress-induced B2-L10 martensitic transformation and superelasticity were investigated in [001]B2-oriented Co35Ni35Al30 (at. %) single crystals in compression. The aging of quenched crystals results in the formation of high-strength nanostructured composites containing spherical nanosized particles and elongated ε-Co (HCP structure) particles, which do not undergo martensitic transformation. The stress-free and stress-assisted aged at 673 K for 0.5 h Co35Ni35Al30 crystals, oriented along [001]B2-direction, demonstrate high-yield stress levels for the B2-phase of 1360÷1630 MPa and a wide superelasticity temperature range from 193 K to 563 K with good cyclic stability and narrow stress hysteresis of Δσ = 50–60 MPa. It has been shown experimentally that a difference in the effective Young's modulus of austenite and martensite determinates a decrease in the reversible strain with a test temperature in both quenched and aged crystals. The tensile two-way shape memory effect with a reversible strain of εTWSME = +2.2% along the [001]B2-direction is induced due to the oriented growth of elongated ε-Co-particles in stress-assisted aged crystals. These results provide a clear demonstration of the potential of aged CoNiAl single crystals for applications involving high stresses and temperatures.

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Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy. / Eftifeeva, Anna; Panchenko, Elena; Chumlyakov, Yuriy et al.
in: Journal of alloys and compounds, Jahrgang 787, 30.05.2019, S. 963-971.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Eftifeeva A, Panchenko E, Chumlyakov Y, Yanushonite E, Gerstein G, Maier HJ. Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy. Journal of alloys and compounds. 2019 Mai 30;787:963-971. Epub 2019 Feb 16. doi: 10.1016/j.jallcom.2019.02.185
Eftifeeva, Anna ; Panchenko, Elena ; Chumlyakov, Yuriy et al. / Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy. in: Journal of alloys and compounds. 2019 ; Jahrgang 787. S. 963-971.
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title = "Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy",
abstract = "The effects of stress-free and stress-assisted aging at 673 K on microstructures, thermoelastic stress-induced B2-L10 martensitic transformation and superelasticity were investigated in [001]B2-oriented Co35Ni35Al30 (at. %) single crystals in compression. The aging of quenched crystals results in the formation of high-strength nanostructured composites containing spherical nanosized particles and elongated ε-Co (HCP structure) particles, which do not undergo martensitic transformation. The stress-free and stress-assisted aged at 673 K for 0.5 h Co35Ni35Al30 crystals, oriented along [001]B2-direction, demonstrate high-yield stress levels for the B2-phase of 1360÷1630 MPa and a wide superelasticity temperature range from 193 K to 563 K with good cyclic stability and narrow stress hysteresis of Δσ = 50–60 MPa. It has been shown experimentally that a difference in the effective Young's modulus of austenite and martensite determinates a decrease in the reversible strain with a test temperature in both quenched and aged crystals. The tensile two-way shape memory effect with a reversible strain of εTWSME = +2.2% along the [001]B2-direction is induced due to the oriented growth of elongated ε-Co-particles in stress-assisted aged crystals. These results provide a clear demonstration of the potential of aged CoNiAl single crystals for applications involving high stresses and temperatures.",
keywords = "Ferromagnetic shape memory alloy, Martensitic transformation, Single crystals, Superelasticity, Two-way shape memory effect",
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TY - JOUR

T1 - Compressive response of high-strength [001]-oriented single crystals of a Co35Ni35Al30 shape memory alloy

AU - Eftifeeva, Anna

AU - Panchenko, Elena

AU - Chumlyakov, Yuriy

AU - Yanushonite, Eleonora

AU - Gerstein, Gregory

AU - Maier, Hans Jürgen

N1 - Funding information: This study was supported by the RFBR [grant number 16-08-00179 ] and the Mendeleev program of TSU .

PY - 2019/5/30

Y1 - 2019/5/30

N2 - The effects of stress-free and stress-assisted aging at 673 K on microstructures, thermoelastic stress-induced B2-L10 martensitic transformation and superelasticity were investigated in [001]B2-oriented Co35Ni35Al30 (at. %) single crystals in compression. The aging of quenched crystals results in the formation of high-strength nanostructured composites containing spherical nanosized particles and elongated ε-Co (HCP structure) particles, which do not undergo martensitic transformation. The stress-free and stress-assisted aged at 673 K for 0.5 h Co35Ni35Al30 crystals, oriented along [001]B2-direction, demonstrate high-yield stress levels for the B2-phase of 1360÷1630 MPa and a wide superelasticity temperature range from 193 K to 563 K with good cyclic stability and narrow stress hysteresis of Δσ = 50–60 MPa. It has been shown experimentally that a difference in the effective Young's modulus of austenite and martensite determinates a decrease in the reversible strain with a test temperature in both quenched and aged crystals. The tensile two-way shape memory effect with a reversible strain of εTWSME = +2.2% along the [001]B2-direction is induced due to the oriented growth of elongated ε-Co-particles in stress-assisted aged crystals. These results provide a clear demonstration of the potential of aged CoNiAl single crystals for applications involving high stresses and temperatures.

AB - The effects of stress-free and stress-assisted aging at 673 K on microstructures, thermoelastic stress-induced B2-L10 martensitic transformation and superelasticity were investigated in [001]B2-oriented Co35Ni35Al30 (at. %) single crystals in compression. The aging of quenched crystals results in the formation of high-strength nanostructured composites containing spherical nanosized particles and elongated ε-Co (HCP structure) particles, which do not undergo martensitic transformation. The stress-free and stress-assisted aged at 673 K for 0.5 h Co35Ni35Al30 crystals, oriented along [001]B2-direction, demonstrate high-yield stress levels for the B2-phase of 1360÷1630 MPa and a wide superelasticity temperature range from 193 K to 563 K with good cyclic stability and narrow stress hysteresis of Δσ = 50–60 MPa. It has been shown experimentally that a difference in the effective Young's modulus of austenite and martensite determinates a decrease in the reversible strain with a test temperature in both quenched and aged crystals. The tensile two-way shape memory effect with a reversible strain of εTWSME = +2.2% along the [001]B2-direction is induced due to the oriented growth of elongated ε-Co-particles in stress-assisted aged crystals. These results provide a clear demonstration of the potential of aged CoNiAl single crystals for applications involving high stresses and temperatures.

KW - Ferromagnetic shape memory alloy

KW - Martensitic transformation

KW - Single crystals

KW - Superelasticity

KW - Two-way shape memory effect

UR - http://www.scopus.com/inward/record.url?scp=85061654679&partnerID=8YFLogxK

U2 - 10.1016/j.jallcom.2019.02.185

DO - 10.1016/j.jallcom.2019.02.185

M3 - Article

AN - SCOPUS:85061654679

VL - 787

SP - 963

EP - 971

JO - Journal of alloys and compounds

JF - Journal of alloys and compounds

SN - 0925-8388

ER -

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