- Field of application of rotor dynamics in comparison to other types of dynamic analysis
- FE-elements available for rotor dynamics
- Frame of reference
-
Stationary vs. rotating frame of reference
-
Modelling with respect to reference frames
- Modelling of bearings
-
bearing properties, stiffness, damping with respect to rotating
speed
- Gyroscopic/Coriolis effect
- Analysis procedures
-
Static analysis
-
Eigenfrequency analysis
-
Whirl, instability and damping
-
Harmonic response (unbalance response analysis)
-
Types of unbalance exitation
-
Transient analysis
- Considerations on modelling of FE-models
in rotor dynamics
-
Shell and solid models
-
Beam modelling
- Results presentation
-
Campbell diagrams/tables
-
Orbit plots/tables
-
Time history/frequency response plots
- Workshops
The training course will primarily focus on
ANSYS Mechanical APDL (Classic) environment.
The pupil's should have basic knowledge in working in the ANSYS Mechanical APDL (Classic)
environment graphical user interface (GUI) and knowing what input files are.
For ANSYS WorkBench user's we recommend the training course "ANSYS APDL for Workbench Users"
prior taking part of "Rotor Dynamics in ANSYS" or equivalent knowledge
The pupil's should have basic knowledge in working in the ANSYS Mechanical APDL (Classic)
environment graphical user interface (GUI) and knowing what input files are.
For ANSYS WorkBench user's we recommend the training course "ANSYS APDL for Workbench Users"
prior taking part of "Rotor Dynamics in ANSYS" or equivalent knowledge
