Age hardening in a Cu-4.5Ti-0.5Co alloy has been studied at different aging
temperatures and times. It has been observed that this alloy exhibits cons
iderable age hardening with hardness increasing from 225H(V) to a peak valu
e of 320H(V) on aging. Yield strength increases from 360 to 710 MPa and ten
sile strength from 610 to 890 MPa on aging the solution treated alloy for p
eak strength. The electrical conductivity of the alloy is found to be 4 and
8% International Annealed Copper Standard (IACS) in solution treated and p
eak aged conditions, respectively. Addition of cobalt to Cu-4.5Ti alloy red
uces the aging temperature and time for attaining peak hardness. Ordered, m
etastable and coherent Cu4Ti (beta (1)) precipitate is found to be responsi
ble for maximum strengthening of the alloy. Interestingly, absence of equil
ibrium precipitate Cu3Ti and presence of Cu4Ti phase have been noticed in t
he overaged condition. The absence of Cu3Ti is attributed to the addition o
f cobalt. In addition, intermetallic phases of Ti and Co like Ti2Co and TiC
o have been observed in solution treated, peak aged and overaged conditions
. Cold work prior to aging enhances the hardness, strength and electrical c
onductivity of the alloy. For example, 90% cold work followed by aging at 4
00 degreesC for 1 h increases the hardness from 320 to 430H(V); yield and t
ensile strengths, from 710 to 1185 and 890 to 1350 MPa, respectively, and e
lectrical conductivity, marginally by 1% IACS. While mechanical properties
are comparable, electrical conductivity of Cu-4.5Ti-0.5Co is less than that
of the binary Cu-4.5Ti alloy in the solution treated as well as peak aged
conditions. (C) 2001 Elsevier Science B.V. All rights reserved.