DYNROT - A FINITE-ELEMENT CODE FOR ROTORDYNAMIC ANALYSIS BASED ON COMPLEX COORDINATES

DYNROT is a code based on the finite element method which is intended to perform a complete study of the dynamic behaviour of rotors. Althou gh initially designed to solve the basic linear rotordynamic problems (Campbell diagram for damped or undamped systems, unbalance response, critical speeds, static loading), it can be used for the study of nons tationary motions of nonlinear rotating systems and for the torsional analysis of rotors and reciprocating machines. Explains that one of th e distinctive features of the code is the use of complex co-ordinates, both for isotropic and non-symmetric systems. Makes extensive use of complex arithmetics in all parts of the analysis. Applies the modal ap proach in some of the solution routines to increase the efficiency of the computation or to compute an equivalent viscous damping in those c ases where hysteretic damping cannot be introduced directly to the mod el. The dynamics of bladed discs is included in the code.