By using the numerical algorithm proposed in part 1, a parametric anal
ysis was performed in this second part of the paper in order to determ
ine the time-dependent behavior of continuous composite beams subjecte
d to static and geometrical actions. This analysis has shown that in t
he case of composite structures under constant static actions the rest
raint reactions undergo very limited variations with time, while the d
eflections vary considerably. Conversely, in the case of constant geom
etrical actions, the deflections undergo very limited variations with
time, while the restraint reactions vary considerably. This occurs for
any value of the stiffness of the connectors, but, in particular, for
the two limit situations of stiffness being either null or infinite t
here are two invariance conditions that hold. Like the two theorems of
linear viscoelasticity for homogeneous structures, these invariance c
onditions state that the restraint reactions under static actions, as
well as the deflections under geometrical actions, can be elastically
evaluated. The shear-force distribution at the interface and the influ
ence of rheologic parameters and of the shrinkage of the concrete slab
were investigated.