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STRUCTURE AND STRENGTH OF TITANIUM AND NICKEL ALLOY JOINTS

EXPLOSIVELY WELDED THROUGH INTERLAYERS

Fomina D.E.

, Student, e-mail:

gaga.95@mail.ru

Alikina M.S

., Student, e-mail:

am.unimail@mail.ru

Haybulin E.V

., Student, e-mail:

mister-evgenii@yandex.ru

Novosibirsk State Technical University, 20 Prospect K. Marksa, Novosibirsk, 630073, Russian

Federation

Abstract

In the current research, results of microstructure and mechanical properties of explosively

welded four-layered Ti-Ta–Cu–Ni alloy and Ti–Ta–Ni–Ni alloy, where Ta–Cu and Ta–Ni are

interlayers, were presented. As titanium with nickel form undesirable intermetallic compounds

(such as Ti

2

Ni, TiNi, TiNi

3

) one of the solutions of this problem based on introduction between

them the intermediate layers. One of the objectives was to determine the appropriate thickness of

the intermediate layer, which provides a high strength of multilayered compositions. Thus, in

research by explosive welding was obtained joints varied by the thickness of tantalum plate from

0.3 to 0.7 mm. Microstructural studies of multilayered compositions with different thickness of

tantalum plate indicate on the formation of defect-free joints with various types of weld geometry.

Results of tensile tests have shown that strength of the composition is determined both by the

thickness of tantalum as well as by the material of the intermediate layer. In composition with

copper-tantalum intermediate layer, strength is determined by the weakest component is copper.

From the other side composition with nickel-tantalum intermediate layer, the strength was

determined by the thickness of tantalum plate. The highest strength properties (ultimate strength

1200 MPa) were observed for composite with tantalum of 0.3 mm thick.

Keywords

Titanium, nickel, tantalum, copper, explosion welding, interlayers