Direct energy deposition of functionally graded layers for the Ti

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Direct energy deposition of functionally graded layers for the Ti–Fe compound. / Mendagaliev, R.V.; Ivanov, S.Y.; Evstifeev, A.D.; Vildanov, A.M.; Klimova-Korsmik, O.G.; Turichin, G.A.

In: Vacuum, Vol. 219, 112750, 01.01.2024.

Research output: Contribution to journal › Article › peer-review

Author

Mendagaliev, R.V. ; Ivanov, S.Y. ; Evstifeev, A.D. ; Vildanov, A.M. ; Klimova-Korsmik, O.G. ; Turichin, G.A. / Direct energy deposition of functionally graded layers for the Ti–Fe compound. In: Vacuum. 2024 ; Vol. 219.

BibTeX

@article{2fa8ab4e8c9e44fc8e1bf7562fe04584,

title = "Direct energy deposition of functionally graded layers for the Ti–Fe compound",

abstract = "In the process of joining dissimilar materials, the formation of large amounts of intermetallics and the interaction of active materials were reduced. The influence of thermal cycles in the cladding process makes a significant contribution to the formation of the structural-phase composition and mechanical properties of the heterogeneous Ti–Nb–Cu–Fe joint. As the interpass temperature increases, the fusion depth increased, as the rate of diffusion processes. It is shown that the formation of intermetallides such as FexTi, TixCu, FexNb, etc. can be reduced by the variation of the interpass temperature. The best mechanical properties were obtained at an interpass temperature of 10 s, and the ultimate strength was up to 325 MPa.",

keywords = "Direct energy deposition, Dissimilar joint, Functional graded materials, Phase composition, Thermal cycle",

author = "R.V. Mendagaliev and S.Y. Ivanov and A.D. Evstifeev and A.M. Vildanov and O.G. Klimova-Korsmik and G.A. Turichin",

year = "2024",

month = jan,

day = "1",

doi = "10.1016/j.vacuum.2023.112750",

language = "English",

volume = "219",

journal = "Vacuum",

issn = "0042-207X",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Direct energy deposition of functionally graded layers for the Ti–Fe compound

AU - Mendagaliev, R.V.

AU - Ivanov, S.Y.

AU - Evstifeev, A.D.

AU - Vildanov, A.M.

AU - Klimova-Korsmik, O.G.

AU - Turichin, G.A.

PY - 2024/1/1

Y1 - 2024/1/1

N2 - In the process of joining dissimilar materials, the formation of large amounts of intermetallics and the interaction of active materials were reduced. The influence of thermal cycles in the cladding process makes a significant contribution to the formation of the structural-phase composition and mechanical properties of the heterogeneous Ti–Nb–Cu–Fe joint. As the interpass temperature increases, the fusion depth increased, as the rate of diffusion processes. It is shown that the formation of intermetallides such as FexTi, TixCu, FexNb, etc. can be reduced by the variation of the interpass temperature. The best mechanical properties were obtained at an interpass temperature of 10 s, and the ultimate strength was up to 325 MPa.

AB - In the process of joining dissimilar materials, the formation of large amounts of intermetallics and the interaction of active materials were reduced. The influence of thermal cycles in the cladding process makes a significant contribution to the formation of the structural-phase composition and mechanical properties of the heterogeneous Ti–Nb–Cu–Fe joint. As the interpass temperature increases, the fusion depth increased, as the rate of diffusion processes. It is shown that the formation of intermetallides such as FexTi, TixCu, FexNb, etc. can be reduced by the variation of the interpass temperature. The best mechanical properties were obtained at an interpass temperature of 10 s, and the ultimate strength was up to 325 MPa.

KW - Direct energy deposition

KW - Dissimilar joint

KW - Functional graded materials

KW - Phase composition

KW - Thermal cycle

UR - https://www.mendeley.com/catalogue/17a70227-e0df-3ca9-a691-19aac97c1dc2/

U2 - 10.1016/j.vacuum.2023.112750

DO - 10.1016/j.vacuum.2023.112750

M3 - Article

VL - 219

JO - Vacuum

JF - Vacuum

SN - 0042-207X

M1 - 112750

ER -

ID: 113569185