Rotor Dynamics Condition Monitoring, RDCM
Rotor Dynamics Condition Monitoring, RDCM course teaches additional analytical techniques possible with dual-channel FFT analysis. RDCM course will assist in the preparation for the RDCM certification examination.
Course Contents:
- Machine Modeling
- Simple Calculation Methods
- Computer Calculation Methods
- Transient Testing
- Field Balancing of Rotating Machinery
- Balancing Turbo machinery
- Validation of Rotor-Dynamic Models Using Dynamic Testing
- Flexible Rotor Balancing
- Case Histories
- Stability of rotating machinery
- Bodé and Nyquist Plots
- Introduction to rotor balancing
- Field balancing
- Fluid film bearing modeling and analysis
- Modal behavior of rotors
- Balancing instrumentation
- Multi-plane balancing
- Flexible rotor balancing
- Transient Vibrations
- Forced Harmonic Vibration
- Introduction to Rotor Dynamics
- Understanding Journal Bearings
- Rotor-Bearing Instabilities
- The basic rotor dynamic theory
- Modeling and analysis of rotors
- Critical Speeds and Mode Shapes
- The Transfer Matrix Method
- Development of a dynamic model
- Modeling machinery components
- Run-up and coast-down tests
- Static and Couple balancing
- Effect of bearings on dynamic behavior of rotors
More Information
Rotor dynamics describes the science and practice of analyzing the dynamics of rotating machinery.
All rotating machinery, particularly high speed-high performance machinery, inherently exhibit unique dynamical behavior that can affect the operation and maintenance of the machine.
Prerequisites
Engineers and technicians with enough experience in balance and machinery vibrations knowledge
Duration – 2 Days
Calendar & Course Fee – Please contact to CANCMI for more information