62 Steels: Metallurgy and Applications450n 400"10
.~ 350
>-300/
jr
/f
J/ f~ SII Hot rolled
o Continuous annealed 760~
9 B tch anneale
0.02 0.04 0.06
Vanadium content (wt%)Figure 1.67 Variation of yield stress with vanadium content of hot-rolled and batch-
and continuously annealed steel also containing 0.06 wt% P and 0.05 wt% Si (After
Pradhan l~
5O0:[-o
>.. o Continuous annealed, 760~
9 Batch annealed, 650~
0.02 0.04 0.06
Niobium content (wt%)Figure 1.68 Comparison of the effect of continuous and batch annealing on the yieM
stress of cold-rolled niobium steels also containing 0.06 wt% P and 0.5 wt% Si (After
Pradhan 1~
1.68 and imply that titanium gives more strengthening per unit addition than
niobium.
It is sometimes necessary to supplement the strengthening from grain refine-
ment by strengthening from solid solution elements if a relatively high strength
is required in a cold-rolled and annealed product. The resulting steel, however,
has the general forming characteristics of a micro-alloyed steel rather than of a
solid solution-strengthened steel because the presence of the precipitates leads to
low r values.
Cold reduction is an important variable for micro-alloyed steels because it
influences both the temperature required for complete recrystallization and the
strength. After continuous annealing for one minute at 760~ for example, an
increase in cold reduction from 50 to 70% for a niobium steel decreases the