The steady-state response of systems with spatially localized non-linearity

The concern of this work is the steady state periodic response having the same period as the excitation of strongly non-linear oscillators u d u mu e 1 u 2 u e 1 u u 2 e 2 u 3 P cos Ot, where m = 1, 0 or À1, e 1 and e 1 are positive parameters which may be arbitrarily large. Single-mode and two-mode

A mechanical system exhibiting combined parametric excitation and clearance type non-linearity is examined analytically and experimentally in an effort to explain complex behavior that is commonly observed in the steady state forced response of rotating machines. The specific case of a preloaded mec

A modal analysis method is developed that predicts the steady state response of discrete linear systems that are governed by systems of ordinary differential equations with periodic coefficients. The systems are excited both parametrically by periodic coefficients and directly by inhomogeneous forci

Some a priori bounds for the error of the QSSA approximation in spatially distributed systems are obtained. The error bounds obtained, depend on the spatial and temporal characteristics of the solution of the reduced system obtained with the use of the QSSA.