The present study generalises previous research work on the dynamics of dis
crete oscillators with piecewise linear characteristics and investigates th
e response of a continuous model system with clearance and motion-limiting
constraints. More specifically, in the first part of this work, an analysis
is presented for determining exact periodic response of a periodically exc
ited deformable rod, whose motion is constrained by a flexible obstacle. Th
is methodology is based on the exact solution form obtained within response
intervals where the parameters remain constant and the system behaviour is
governed by a linear equation of motion. The unknowns of the problem are s
ubsequently determined by imposing an appropriate set of periodicity and ma
tching conditions. The analytical part is complemented by a suitable method
for determining the stability properties of the located periodic motions.
In the second part of the study, the analysis is applied to several example
cases in order to investigate the effect of the parameters on the system d
ynamics. Special emphasis is placed on comparing these results with results
obtained for similar but rigid rods. Finally, direct integration of the eq
uation of motion for selected parameter combinations reveals the existence
of motions, which are more complicated than the periodic motions determined
analytically. (C) 2000 Elsevier Science Ltd. All rights reserved.