Low-carbon strip steels 43form during the hot-rolling sequence and influence the development of the hot-
rolled texture. 74 The work showed that at the slab reheat temperature, titanium
sulphide (TiS) forms and may transform into titanium carbo-sulphide (Ti4C2S2)
on cooling in the hot-rolling temperature range. This is accompanied by a much
greater drop in the solute carbon content than would be possible in the absence
of sulphur. It was considered 74 that the low-solute carbon content would promote
the development of a desirable (111) texture in the hot band which would, in turn,
lead to a more beneficial texture in the final cold-rolled and annealed product.Batch-annealed, aluminium-killed steel
These steels are batch annealed using annealing temperatures close to 700~
The main elements which influence the properties are aluminium, nitrogen
and carbon, with a minor influence of manganese. The optimum nitrogen and
soluble aluminium contents are 0.005-0.01 wt% and 0.025-0.04 wt% respec-
tively, although acceptable r values may be obtained just outside these limits,
as illustrated in Figure 1.43. An increase in carbon content above and below
the range causes an increase in strength. Normally with carbon contents close
to 0.04%, the carbon that is taken into solution is reprecipitated completely
during cooling mainly by diffusion onto the undissolved carbides. The nitrogen
is combined as aluminium nitride and the steel becomes perfectly non-ageing
as indicated previously. At lower carbon contents, the number of undissolved0.016/
l 1.8 1.7 1.6 1.40.0128 o.oosZ
0.004i _ i _ i ... i
0.02 0.04 0.06 0.08
Alumlnlum content (wt%)Figure 1.43 Effect of finished sheet nitrogen and aluminium on the rm values of
batch-annealed, aluminium-killed steel (Gawne ~5)