Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • E. Yu Panchenko
  • Yu I. Chumlyakov
  • N. Yu Surikov
  • A. I. Tagiltsev
  • N. G. Vetoshkina
  • K. S. Osipovich
  • H. Maier
  • H. Sehitoglu

Organisationseinheiten

Externe Organisationen

  • Tomsk State University
  • University of Illinois Urbana-Champaign (UIUC)
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Details

OriginalspracheEnglisch
Seiten (von - bis)1534-1543
Seitenumfang10
FachzeitschriftRussian physics journal
Jahrgang58
Ausgabenummer11
PublikationsstatusVeröffentlicht - 19 März 2016

Abstract

The features of orientation dependence of stress-induced thermoelastic B2–(R)–B19′-martensitic transformations in single crystals of the Ti48.5Ni51.5 and Ni51.0Ti36.5Hf12.5 (at.%) alloys, which contain disperse particles of the Ti3Ni4 and H-phase, respectively, are revealed along with those of their shape-memory effects (SME) and superelasticity (SE). It is experimentally demonstrated that irrespective of the crystal structure of disperse particles measuring more than 100 nm, for their volume fraction f > 16% there is a weaker orientation dependence of the reversible strain in the cases of manifestation of SME and SE. In the orientations of Class I, wherein martensitic detwinning introduces a considerable contribution into transformation strain, the values of SME |εSME| and SE |εSE| decrease by over a factor of two compared to the theoretical lattice strain value |εtr0| for a B2–B19′-transformation and the experimental values of reversible strain for quenched TiNi crystals. In the orientations of Class 2, wherein detwinning of the martensite is suppressed as is the case in quenched single-phase single crystals, the reversible strain is maintained close to its theoretical value |εtr0|. Micromechanical models of interaction between the martensite and the disperse particles are proposed, which account for the weaker orientation dependence of |εSME| and |εSE| due to suppression of detwinning of the B19′-martensite crystals by the particles and a transition from a single-variant evolution of the stress-induced martensitic transformations to a multiple-variant evolution of transformations in the cases of increased size of the particles and their larger volume fractions.

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Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys. / Panchenko, E. Yu; Chumlyakov, Yu I.; Surikov, N. Yu et al.
in: Russian physics journal, Jahrgang 58, Nr. 11, 19.03.2016, S. 1534-1543.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Panchenko, EY, Chumlyakov, YI, Surikov, NY, Tagiltsev, AI, Vetoshkina, NG, Osipovich, KS, Maier, H & Sehitoglu, H 2016, 'Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys', Russian physics journal, Jg. 58, Nr. 11, S. 1534-1543. https://doi.org/10.1007/s11182-016-0679-x
Panchenko, E. Y., Chumlyakov, Y. I., Surikov, N. Y., Tagiltsev, A. I., Vetoshkina, N. G., Osipovich, K. S., Maier, H., & Sehitoglu, H. (2016). Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys. Russian physics journal, 58(11), 1534-1543. https://doi.org/10.1007/s11182-016-0679-x
Panchenko EY, Chumlyakov YI, Surikov NY, Tagiltsev AI, Vetoshkina NG, Osipovich KS et al. Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys. Russian physics journal. 2016 Mär 19;58(11):1534-1543. doi: 10.1007/s11182-016-0679-x
Panchenko, E. Yu ; Chumlyakov, Yu I. ; Surikov, N. Yu et al. / Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys. in: Russian physics journal. 2016 ; Jahrgang 58, Nr. 11. S. 1534-1543.
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title = "Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys",
abstract = "The features of orientation dependence of stress-induced thermoelastic B2–(R)–B19′-martensitic transformations in single crystals of the Ti48.5Ni51.5 and Ni51.0Ti36.5Hf12.5 (at.%) alloys, which contain disperse particles of the Ti3Ni4 and H-phase, respectively, are revealed along with those of their shape-memory effects (SME) and superelasticity (SE). It is experimentally demonstrated that irrespective of the crystal structure of disperse particles measuring more than 100 nm, for their volume fraction f > 16% there is a weaker orientation dependence of the reversible strain in the cases of manifestation of SME and SE. In the orientations of Class I, wherein martensitic detwinning introduces a considerable contribution into transformation strain, the values of SME |εSME| and SE |εSE| decrease by over a factor of two compared to the theoretical lattice strain value |εtr0| for a B2–B19′-transformation and the experimental values of reversible strain for quenched TiNi crystals. In the orientations of Class 2, wherein detwinning of the martensite is suppressed as is the case in quenched single-phase single crystals, the reversible strain is maintained close to its theoretical value |εtr0|. Micromechanical models of interaction between the martensite and the disperse particles are proposed, which account for the weaker orientation dependence of |εSME| and |εSE| due to suppression of detwinning of the B19′-martensite crystals by the particles and a transition from a single-variant evolution of the stress-induced martensitic transformations to a multiple-variant evolution of transformations in the cases of increased size of the particles and their larger volume fractions.",
keywords = "disperse particles, shape memory effect, single crystals, superelasticity, thermoelastic martensitic transformations",
author = "Panchenko, {E. Yu} and Chumlyakov, {Yu I.} and Surikov, {N. Yu} and Tagiltsev, {A. I.} and Vetoshkina, {N. G.} and Osipovich, {K. S.} and H. Maier and H. Sehitoglu",
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TY - JOUR

T1 - Orientation Dependence of Functional Properties in Heterophase Single Crystals of the Ti36.5Ni51.0Hf12.5 and Ti48.5Ni51.5 Alloys

AU - Panchenko, E. Yu

AU - Chumlyakov, Yu I.

AU - Surikov, N. Yu

AU - Tagiltsev, A. I.

AU - Vetoshkina, N. G.

AU - Osipovich, K. S.

AU - Maier, H.

AU - Sehitoglu, H.

PY - 2016/3/19

Y1 - 2016/3/19

N2 - The features of orientation dependence of stress-induced thermoelastic B2–(R)–B19′-martensitic transformations in single crystals of the Ti48.5Ni51.5 and Ni51.0Ti36.5Hf12.5 (at.%) alloys, which contain disperse particles of the Ti3Ni4 and H-phase, respectively, are revealed along with those of their shape-memory effects (SME) and superelasticity (SE). It is experimentally demonstrated that irrespective of the crystal structure of disperse particles measuring more than 100 nm, for their volume fraction f > 16% there is a weaker orientation dependence of the reversible strain in the cases of manifestation of SME and SE. In the orientations of Class I, wherein martensitic detwinning introduces a considerable contribution into transformation strain, the values of SME |εSME| and SE |εSE| decrease by over a factor of two compared to the theoretical lattice strain value |εtr0| for a B2–B19′-transformation and the experimental values of reversible strain for quenched TiNi crystals. In the orientations of Class 2, wherein detwinning of the martensite is suppressed as is the case in quenched single-phase single crystals, the reversible strain is maintained close to its theoretical value |εtr0|. Micromechanical models of interaction between the martensite and the disperse particles are proposed, which account for the weaker orientation dependence of |εSME| and |εSE| due to suppression of detwinning of the B19′-martensite crystals by the particles and a transition from a single-variant evolution of the stress-induced martensitic transformations to a multiple-variant evolution of transformations in the cases of increased size of the particles and their larger volume fractions.

AB - The features of orientation dependence of stress-induced thermoelastic B2–(R)–B19′-martensitic transformations in single crystals of the Ti48.5Ni51.5 and Ni51.0Ti36.5Hf12.5 (at.%) alloys, which contain disperse particles of the Ti3Ni4 and H-phase, respectively, are revealed along with those of their shape-memory effects (SME) and superelasticity (SE). It is experimentally demonstrated that irrespective of the crystal structure of disperse particles measuring more than 100 nm, for their volume fraction f > 16% there is a weaker orientation dependence of the reversible strain in the cases of manifestation of SME and SE. In the orientations of Class I, wherein martensitic detwinning introduces a considerable contribution into transformation strain, the values of SME |εSME| and SE |εSE| decrease by over a factor of two compared to the theoretical lattice strain value |εtr0| for a B2–B19′-transformation and the experimental values of reversible strain for quenched TiNi crystals. In the orientations of Class 2, wherein detwinning of the martensite is suppressed as is the case in quenched single-phase single crystals, the reversible strain is maintained close to its theoretical value |εtr0|. Micromechanical models of interaction between the martensite and the disperse particles are proposed, which account for the weaker orientation dependence of |εSME| and |εSE| due to suppression of detwinning of the B19′-martensite crystals by the particles and a transition from a single-variant evolution of the stress-induced martensitic transformations to a multiple-variant evolution of transformations in the cases of increased size of the particles and their larger volume fractions.

KW - disperse particles

KW - shape memory effect

KW - single crystals

KW - superelasticity

KW - thermoelastic martensitic transformations

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U2 - 10.1007/s11182-016-0679-x

DO - 10.1007/s11182-016-0679-x

M3 - Article

AN - SCOPUS:84961218235

VL - 58

SP - 1534

EP - 1543

JO - Russian physics journal

JF - Russian physics journal

SN - 1064-8887

IS - 11

ER -

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