Title of article
Structure and properties of diffusion bonded transition joints between commercially pure titanium and type 304 stainless steel using a nickel interlayer
Author/Authors
Sukumar Kundu، نويسنده , , Subrata Chatterjee، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
7
From page
7906
To page
7912
Abstract
The solid-state diffusion bonding was carried out
between commercially pure titanium and Type 304 stainless
steel using nickel as an interlayer in the temperature range of
800–900 C for 9 ks under 3 MPa load in vacuum. The
transition joints thus formed were characterized in the optical
and scanning electron microscopes. The inter-diffusion of
the chemical species across the diffusion interfaces were
evaluated by electron probe microanalysis. TiNi3, TiNi and
Ti2Ni are formed at the nickel–titanium (Ni–Ti) interface;
however, the stainless steel–nickel (SS–Ni) diffusion interface
is free from intermetallic compounds up to 850 C
temperature. At 900 C, the Ni–Ti interface exhibits the
presence of a-b Ti discrete islands in the matrix of Ti2Ni and
k + v + a-Fe, k + FeTi and k + FeTi + b-Ti phase mixtures
occur at the SS–Ni interface. The occurrence of different
intermetallics are confirmed by the x-ray diffraction technique.
The maximum tensile strength of ~276 MPa and shear
strength of ~209 MPa along with 7.3% elongation were
obtained for the diffusion couple processed at 850 C. At the
900 C joining temperature, the formation of Fe–Ti base
intermetallics reduces the bond strength. Evaluation of the
fracture surfaces using scanning electron microscopy and
energy dispersive spectroscopy demonstrates that failure
takes place through Ni–Ti interface up to 850 Cand through
the SS–Ni interface of the joint when processed at 900 C.
Journal title
Journal of Materials Science
Serial Year
2007
Journal title
Journal of Materials Science
Record number
833495
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