Standard

Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding. / Belyaev, S.; Rubanik, V.; Resnina, N.; Lomakin, I.

в: Smart Materials and Structures, Том 23, № 8, 2014, стр. 1-8.

Результаты исследований: Научные публикации в периодических изданияхстатья

Harvard

Belyaev, S, Rubanik, V, Resnina, N & Lomakin, I 2014, 'Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding', Smart Materials and Structures, Том. 23, № 8, стр. 1-8. https://doi.org/10.1088/0964-1726/23/8/085029

APA

Belyaev, S., Rubanik, V., Resnina, N., & Lomakin, I. (2014). Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding. Smart Materials and Structures, 23(8), 1-8. https://doi.org/10.1088/0964-1726/23/8/085029

Vancouver

Belyaev S, Rubanik V, Resnina N, Lomakin I. Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding. Smart Materials and Structures. 2014;23(8):1-8. https://doi.org/10.1088/0964-1726/23/8/085029

Author

Belyaev, S. ; Rubanik, V. ; Resnina, N. ; Lomakin, I. / Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding. в: Smart Materials and Structures. 2014 ; Том 23, № 8. стр. 1-8.

BibTeX

@article{0c89eee1e25e4107961a0178823c8791,
title = "Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding",
abstract = "A bimetal composite, Ti50Ni50-Ti49.3Ni50.7, was produced by explosion welding, causing a Martensitic transformation. The functional properties of these objects were studied. It was found that explosion welding partially depressed the Martensitic transformation; however, a subsequent annealing resulted in the recovery of the kinetics of Martensitic transformations. Moreover, a variation in the annealing temperature allowed the control of a sequence of Martensitic transformations in the Ni-rich layer. The influence of the ratio of the equiatomic TiNi layer thickness to the total thickness of the bimetal composite on the recoverable strain was studied, and it was found that the maximum recoverable strain was observed when the thickness of the equiatomic TiNi layer was approximately equal to 55% of the total thickness of the sample. Functional properties were studied in the bimetal composite using the optimal ratio of the layer's thickness. It was found that the value of the recoverable strain depended on the val",
author = "S. Belyaev and V. Rubanik and N. Resnina and I. Lomakin",
year = "2014",
doi = "10.1088/0964-1726/23/8/085029",
language = "English",
volume = "23",
pages = "1--8",
journal = "Smart Materials and Structures",
issn = "0964-1726",
publisher = "IOP Publishing Ltd.",
number = "8",

}

RIS

TY - JOUR

T1 - Functional properties of 'Ti50Ni50-Ti49.3Ni50.7' shape memory composite produced by explosion welding

AU - Belyaev, S.

AU - Rubanik, V.

AU - Resnina, N.

AU - Lomakin, I.

PY - 2014

Y1 - 2014

N2 - A bimetal composite, Ti50Ni50-Ti49.3Ni50.7, was produced by explosion welding, causing a Martensitic transformation. The functional properties of these objects were studied. It was found that explosion welding partially depressed the Martensitic transformation; however, a subsequent annealing resulted in the recovery of the kinetics of Martensitic transformations. Moreover, a variation in the annealing temperature allowed the control of a sequence of Martensitic transformations in the Ni-rich layer. The influence of the ratio of the equiatomic TiNi layer thickness to the total thickness of the bimetal composite on the recoverable strain was studied, and it was found that the maximum recoverable strain was observed when the thickness of the equiatomic TiNi layer was approximately equal to 55% of the total thickness of the sample. Functional properties were studied in the bimetal composite using the optimal ratio of the layer's thickness. It was found that the value of the recoverable strain depended on the val

AB - A bimetal composite, Ti50Ni50-Ti49.3Ni50.7, was produced by explosion welding, causing a Martensitic transformation. The functional properties of these objects were studied. It was found that explosion welding partially depressed the Martensitic transformation; however, a subsequent annealing resulted in the recovery of the kinetics of Martensitic transformations. Moreover, a variation in the annealing temperature allowed the control of a sequence of Martensitic transformations in the Ni-rich layer. The influence of the ratio of the equiatomic TiNi layer thickness to the total thickness of the bimetal composite on the recoverable strain was studied, and it was found that the maximum recoverable strain was observed when the thickness of the equiatomic TiNi layer was approximately equal to 55% of the total thickness of the sample. Functional properties were studied in the bimetal composite using the optimal ratio of the layer's thickness. It was found that the value of the recoverable strain depended on the val

U2 - 10.1088/0964-1726/23/8/085029

DO - 10.1088/0964-1726/23/8/085029

M3 - Article

VL - 23

SP - 1

EP - 8

JO - Smart Materials and Structures

JF - Smart Materials and Structures

SN - 0964-1726

IS - 8

ER -

ID: 7019887