Standard

Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing. / Resnina, N.; Palani, I. A.; Belyaev, S.; Singh, S.; Liulchak, P.; Karaseva, U.; Mani Prabu, S. S.; Jayachandran, S.; Kalganov, V.; Iaparova, E.; Demidova, E.

в: Materialia, Том 20, 101238, 01.09.2021.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Resnina, N, Palani, IA, Belyaev, S, Singh, S, Liulchak, P, Karaseva, U, Mani Prabu, SS, Jayachandran, S, Kalganov, V, Iaparova, E & Demidova, E 2021, 'Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing', Materialia, Том. 20, 101238. https://doi.org/10.1016/j.mtla.2021.101238

APA

Resnina, N., Palani, I. A., Belyaev, S., Singh, S., Liulchak, P., Karaseva, U., Mani Prabu, S. S., Jayachandran, S., Kalganov, V., Iaparova, E., & Demidova, E. (2021). Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing. Materialia, 20, [101238]. https://doi.org/10.1016/j.mtla.2021.101238

Vancouver

Resnina N, Palani IA, Belyaev S, Singh S, Liulchak P, Karaseva U и пр. Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing. Materialia. 2021 Сент. 1;20. 101238. https://doi.org/10.1016/j.mtla.2021.101238

Author

Resnina, N. ; Palani, I. A. ; Belyaev, S. ; Singh, S. ; Liulchak, P. ; Karaseva, U. ; Mani Prabu, S. S. ; Jayachandran, S. ; Kalganov, V. ; Iaparova, E. ; Demidova, E. / Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing. в: Materialia. 2021 ; Том 20.

BibTeX

@article{199a82fe3f8044a2a28278952f888c37,
title = "Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing",
abstract = "The influence of heat treatment on the structure and martensitic transformation in the 5-layered NiTi sample deposited by wire arc additive manufacturing on Ti substrate was studied. The Ti2Ni phase was found on the boundary of the Ni-rich NiTi grains after annealing that was not typical for NiTi alloys produced by conventional techniques. This was due to the as-built sample contained Ti-rich NiTi phase in the interdendritic space. During annealing, this phase decayed to the NiTi and Ti2Ni phases and led to the formation of the Ti2Ni precipitates on grain boundaries. Annealing led to homogeneous composition of the NiTi phase within the layer but kept it to be different in various layers. This was caused by the Ti2Ni and Ni4Ti3 (Ni3Ti2) precipitates formed during annealing, but the diffusion of the Ti and Ni elements between layers hardly occurred. Annealing decreased the difference in Ni concentration in the NiTi phase of the 3rd to 5th layers that decreased the temperature range of the martensitic transformation. It was shown that the properties of the NiTi sample deposited to Ti substrate after post-production annealing are close to the properteis of the NiTi sample deposited on the NiTi substrate.",
keywords = "Additive manufacturing, heat treatment, martensitic transformation, shape memory alloy, structure characterization, WAAM, PHASE-TRANSFORMATION",
author = "N. Resnina and Palani, {I. A.} and S. Belyaev and S. Singh and P. Liulchak and U. Karaseva and {Mani Prabu}, {S. S.} and S. Jayachandran and V. Kalganov and E. Iaparova and E. Demidova",
note = "Publisher Copyright: {\textcopyright} 2021",
year = "2021",
month = sep,
day = "1",
doi = "10.1016/j.mtla.2021.101238",
language = "English",
volume = "20",
journal = "Materialia",
issn = "2589-1529",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Influence of heat treatment on the structure and martensitic transformation in NiTi alloy produced by wire arc additive manufacturing

AU - Resnina, N.

AU - Palani, I. A.

AU - Belyaev, S.

AU - Singh, S.

AU - Liulchak, P.

AU - Karaseva, U.

AU - Mani Prabu, S. S.

AU - Jayachandran, S.

AU - Kalganov, V.

AU - Iaparova, E.

AU - Demidova, E.

N1 - Publisher Copyright: © 2021

PY - 2021/9/1

Y1 - 2021/9/1

N2 - The influence of heat treatment on the structure and martensitic transformation in the 5-layered NiTi sample deposited by wire arc additive manufacturing on Ti substrate was studied. The Ti2Ni phase was found on the boundary of the Ni-rich NiTi grains after annealing that was not typical for NiTi alloys produced by conventional techniques. This was due to the as-built sample contained Ti-rich NiTi phase in the interdendritic space. During annealing, this phase decayed to the NiTi and Ti2Ni phases and led to the formation of the Ti2Ni precipitates on grain boundaries. Annealing led to homogeneous composition of the NiTi phase within the layer but kept it to be different in various layers. This was caused by the Ti2Ni and Ni4Ti3 (Ni3Ti2) precipitates formed during annealing, but the diffusion of the Ti and Ni elements between layers hardly occurred. Annealing decreased the difference in Ni concentration in the NiTi phase of the 3rd to 5th layers that decreased the temperature range of the martensitic transformation. It was shown that the properties of the NiTi sample deposited to Ti substrate after post-production annealing are close to the properteis of the NiTi sample deposited on the NiTi substrate.

AB - The influence of heat treatment on the structure and martensitic transformation in the 5-layered NiTi sample deposited by wire arc additive manufacturing on Ti substrate was studied. The Ti2Ni phase was found on the boundary of the Ni-rich NiTi grains after annealing that was not typical for NiTi alloys produced by conventional techniques. This was due to the as-built sample contained Ti-rich NiTi phase in the interdendritic space. During annealing, this phase decayed to the NiTi and Ti2Ni phases and led to the formation of the Ti2Ni precipitates on grain boundaries. Annealing led to homogeneous composition of the NiTi phase within the layer but kept it to be different in various layers. This was caused by the Ti2Ni and Ni4Ti3 (Ni3Ti2) precipitates formed during annealing, but the diffusion of the Ti and Ni elements between layers hardly occurred. Annealing decreased the difference in Ni concentration in the NiTi phase of the 3rd to 5th layers that decreased the temperature range of the martensitic transformation. It was shown that the properties of the NiTi sample deposited to Ti substrate after post-production annealing are close to the properteis of the NiTi sample deposited on the NiTi substrate.

KW - Additive manufacturing

KW - heat treatment

KW - martensitic transformation

KW - shape memory alloy

KW - structure characterization

KW - WAAM

KW - PHASE-TRANSFORMATION

UR - http://www.scopus.com/inward/record.url?scp=85116883926&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/0818ba02-604a-30fc-b65a-6beb52c1d45f/

U2 - 10.1016/j.mtla.2021.101238

DO - 10.1016/j.mtla.2021.101238

M3 - Article

AN - SCOPUS:85116883926

VL - 20

JO - Materialia

JF - Materialia

SN - 2589-1529

M1 - 101238

ER -

ID: 87967425