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Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure. / Belyaev, S. P.; Egorov, S. A.; Pulnev, S.; Volkov, A. E.

In: Journal De Physique. IV : JP, Vol. 112 II, 01.10.2003.

Research output: Contribution to journalConference articlepeer-review

Harvard

Belyaev, SP, Egorov, SA, Pulnev, S & Volkov, AE 2003, 'Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure', Journal De Physique. IV : JP, vol. 112 II.

APA

Belyaev, S. P., Egorov, S. A., Pulnev, S., & Volkov, A. E. (2003). Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure. Journal De Physique. IV : JP, 112 II.

Vancouver

Belyaev SP, Egorov SA, Pulnev S, Volkov AE. Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure. Journal De Physique. IV : JP. 2003 Oct 1;112 II.

Author

Belyaev, S. P. ; Egorov, S. A. ; Pulnev, S. ; Volkov, A. E. / Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure. In: Journal De Physique. IV : JP. 2003 ; Vol. 112 II.

BibTeX

@article{03e26012d85c4c9d82bca9f02227caee,
title = "Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure",
abstract = "Initiation of martensitic unelasticity effects in TiNi, Cu-Al-Ni and Cu-Al-Mn by variation of the hydrostatic pressure has been studied. The experiments have been carried out in the high-pressure chamber involving an electric heater and a system for strain and stress measurements. It has been found that the pressure decreases the characteristic temperatures of the martensitic transformation for all studied alloys. Because of this an isothermal increase of the pressure on the stage of the direct transformation produces a temperature delay of the strain variation at further cooling and, vice versa, an isothermal decrease of the pressure causes the continuation of the transformation and a strain growth. Similarly, the pressure variation can initiate strain recovery or its temperature delay at subsequent heating. It has been found that the shifts of the characteristic temperatures caused by the pressure are bigger than one can expect considering only the volume change at the transformation. Other factors, which may be responsible for the observed temperature shift are discussed.",
author = "Belyaev, {S. P.} and Egorov, {S. A.} and S. Pulnev and Volkov, {A. E.}",
year = "2003",
month = oct,
day = "1",
language = "English",
volume = "112 II",
journal = "Journal de Physique I",
issn = "1951-6355",
publisher = "Springer Nature",
note = "International Conference on Martensitic Transformations ; Conference date: 10-06-2002 Through 14-06-2002",

}

RIS

TY - JOUR

T1 - Transformation plasticity and shape memory effect in TiNi and Cu-based alloys under hydrostatic pressure

AU - Belyaev, S. P.

AU - Egorov, S. A.

AU - Pulnev, S.

AU - Volkov, A. E.

PY - 2003/10/1

Y1 - 2003/10/1

N2 - Initiation of martensitic unelasticity effects in TiNi, Cu-Al-Ni and Cu-Al-Mn by variation of the hydrostatic pressure has been studied. The experiments have been carried out in the high-pressure chamber involving an electric heater and a system for strain and stress measurements. It has been found that the pressure decreases the characteristic temperatures of the martensitic transformation for all studied alloys. Because of this an isothermal increase of the pressure on the stage of the direct transformation produces a temperature delay of the strain variation at further cooling and, vice versa, an isothermal decrease of the pressure causes the continuation of the transformation and a strain growth. Similarly, the pressure variation can initiate strain recovery or its temperature delay at subsequent heating. It has been found that the shifts of the characteristic temperatures caused by the pressure are bigger than one can expect considering only the volume change at the transformation. Other factors, which may be responsible for the observed temperature shift are discussed.

AB - Initiation of martensitic unelasticity effects in TiNi, Cu-Al-Ni and Cu-Al-Mn by variation of the hydrostatic pressure has been studied. The experiments have been carried out in the high-pressure chamber involving an electric heater and a system for strain and stress measurements. It has been found that the pressure decreases the characteristic temperatures of the martensitic transformation for all studied alloys. Because of this an isothermal increase of the pressure on the stage of the direct transformation produces a temperature delay of the strain variation at further cooling and, vice versa, an isothermal decrease of the pressure causes the continuation of the transformation and a strain growth. Similarly, the pressure variation can initiate strain recovery or its temperature delay at subsequent heating. It has been found that the shifts of the characteristic temperatures caused by the pressure are bigger than one can expect considering only the volume change at the transformation. Other factors, which may be responsible for the observed temperature shift are discussed.

UR - http://www.scopus.com/inward/record.url?scp=0242539975&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0242539975

VL - 112 II

JO - Journal de Physique I

JF - Journal de Physique I

SN - 1951-6355

T2 - International Conference on Martensitic Transformations

Y2 - 10 June 2002 through 14 June 2002

ER -

ID: 45735729