Modal analysis methods to solve rotordynamic tasks are being developed. They help to decrease the necessary calculation and time resources significantly. Algorithms, taking into account change in inertia parameters of dynamic rotor systems, stiffness characteristics, gyroscopic and damping forces, are considered. The algorithm of consideration of axial forces acting in rotor systems is suggested.
DYNAMICS R4.x is
a new generation of software package for turbomachinery rotor dynamics
problems. Details... DAMPER R3.1 is a simple tool for computing of the characteristics of hydrodynamic
damper supports.Details...
SERVICES
Technical consulting in rotor dynamics
Design of rotor-bearing structures
Dynamical analysis of rotor-bearing structures
Design of the non-standard and unique experimental equipment for rotor-bearing structures
Development of vibration diagnostic and condition monitoring systems for gas turbine engines
Special software in rotor dynamics of turbomachinery - programming and development