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Simulation of the processes of reversible shape change in TiNiFe. / Belyayev, S. P.; Kuz'Min, S. L.; Likhachev, V. A.; Rogachevskaya, M. Yu.

In: Physics of Metals and Metallography, Vol. 68, No. 3, 01.12.1989, p. 201-203.

Research output: Contribution to journalArticlepeer-review

Harvard

Belyayev, SP, Kuz'Min, SL, Likhachev, VA & Rogachevskaya, MY 1989, 'Simulation of the processes of reversible shape change in TiNiFe', Physics of Metals and Metallography, vol. 68, no. 3, pp. 201-203.

APA

Belyayev, S. P., Kuz'Min, S. L., Likhachev, V. A., & Rogachevskaya, M. Y. (1989). Simulation of the processes of reversible shape change in TiNiFe. Physics of Metals and Metallography, 68(3), 201-203.

Vancouver

Belyayev SP, Kuz'Min SL, Likhachev VA, Rogachevskaya MY. Simulation of the processes of reversible shape change in TiNiFe. Physics of Metals and Metallography. 1989 Dec 1;68(3):201-203.

Author

Belyayev, S. P. ; Kuz'Min, S. L. ; Likhachev, V. A. ; Rogachevskaya, M. Yu. / Simulation of the processes of reversible shape change in TiNiFe. In: Physics of Metals and Metallography. 1989 ; Vol. 68, No. 3. pp. 201-203.

BibTeX

@article{47da2873e14749dbb894717a28b6be8f,
title = "Simulation of the processes of reversible shape change in TiNiFe",
abstract = "The ideas currently being developed regarding the physical nature of the reversible martensitic transformations seem to suggest heterogeneous development of microstrains in a crystal and activation, independent of space and time, of mechanisms of phase-twin or dislocation plasticity, in the processes of both deformation and recovery. On the basis of these propositions it is possible to simulate the shape recovery of alloys by simply superimposing the kinetics of shape recovery after individual stages of prior deformation. This paper reports the results of experiments simulating the reverse shape-memory effect in TiNiFe. Authors conclude that it is possible to simulate the shape recovery of materials with shape memory by superposition of the kinetics of recovery initiated by the corresponding stages of prior deformation.",
author = "Belyayev, {S. P.} and Kuz'Min, {S. L.} and Likhachev, {V. A.} and Rogachevskaya, {M. Yu}",
year = "1989",
month = dec,
day = "1",
language = "English",
volume = "68",
pages = "201--203",
journal = "Physics of Metals and Metallography",
issn = "0031-918X",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "3",

}

RIS

TY - JOUR

T1 - Simulation of the processes of reversible shape change in TiNiFe

AU - Belyayev, S. P.

AU - Kuz'Min, S. L.

AU - Likhachev, V. A.

AU - Rogachevskaya, M. Yu

PY - 1989/12/1

Y1 - 1989/12/1

N2 - The ideas currently being developed regarding the physical nature of the reversible martensitic transformations seem to suggest heterogeneous development of microstrains in a crystal and activation, independent of space and time, of mechanisms of phase-twin or dislocation plasticity, in the processes of both deformation and recovery. On the basis of these propositions it is possible to simulate the shape recovery of alloys by simply superimposing the kinetics of shape recovery after individual stages of prior deformation. This paper reports the results of experiments simulating the reverse shape-memory effect in TiNiFe. Authors conclude that it is possible to simulate the shape recovery of materials with shape memory by superposition of the kinetics of recovery initiated by the corresponding stages of prior deformation.

AB - The ideas currently being developed regarding the physical nature of the reversible martensitic transformations seem to suggest heterogeneous development of microstrains in a crystal and activation, independent of space and time, of mechanisms of phase-twin or dislocation plasticity, in the processes of both deformation and recovery. On the basis of these propositions it is possible to simulate the shape recovery of alloys by simply superimposing the kinetics of shape recovery after individual stages of prior deformation. This paper reports the results of experiments simulating the reverse shape-memory effect in TiNiFe. Authors conclude that it is possible to simulate the shape recovery of materials with shape memory by superposition of the kinetics of recovery initiated by the corresponding stages of prior deformation.

UR - http://www.scopus.com/inward/record.url?scp=0024774410&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0024774410

VL - 68

SP - 201

EP - 203

JO - Physics of Metals and Metallography

JF - Physics of Metals and Metallography

SN - 0031-918X

IS - 3

ER -

ID: 62336232