UNBALNC
Bulk Data Entry Defines the unbalanced rotating load during a rotor dynamic analysis in Modal Frequency Response, Linear Direct Transient or Small Displacement Nonlinear Direct Transient solution sequences. The unbalanced load is specified in a cylindrical system where the rotor rotation axis is the Z-axis.
Format
| (1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
|---|---|---|---|---|---|---|---|---|---|
| UNBALNC | SID | MASS | GRID | X1 | X2 | X3 | |||
| ROFFSET | THETA | ZOFFSET | T/FON | T/FOFF |
Example
| (1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
|---|---|---|---|---|---|---|---|---|---|
| UNBALNC | 200 | 1.2 | 3103 | 1.0 | 0.0 | 0.0 | |||
| 0.3 | 45.0 | 0.1 | 2 | 110 |
Definitions
| Field | Contents | SI Unit Example |
|---|---|---|
| SID |
No default < Integer > 0> |
|
| MASS | Defines the magnitude of
unbalanced mass. 4 No default <Integer > 0/Real> |
|
| GRID | Grid Point identification
number of node at which the unbalanced load is applied. No default <Integer> |
|
| X1, X2, X3 | Components of a vector
that are used to define a cylindrical coordinate system centered at
"GRID". The vector components are defined
from "GRID" in the displacement coordinate system
of the grid point at "GRID". 6 No default <Real> |
|
| ROFFSET |
Default = 1.0 <Integer > 0/Real> |
|
| THETA | Angular position (in
degrees) of the unbalanced mass in the cylindrical coordinate system
defined by X1, X2, and
X3. Default = 0.0 <Real> |
|
| ZOFFSET |
Default = 0.0 <Integer > 0/Real> |
|
| T/FON | Defines the starting
time/frequency at which the unbalanced load is applied. 5 Default = 0.0 <Real ≥ 0> |
|
| T/FOFF | Defines the stopping
(final) time/frequency at which the unbalanced load is applied.
5 Default = 999999.0 <Real ≥ 0> |
Comments
- Currently, models containing multiple UNBALNC Bulk Data Entries with the same set identification number (SID) are not supported. Each UNBALNC Bulk Data Entry must have a unique SID.
- For frequency response analysis, the UNBALNC Bulk Data Entry is referenced by a DLOAD Subcase Information Entry. For transient analysis, the UNBALNC Bulk Data Entry can either be referenced by a DLOAD or RGYRO Subcase Information Entry.
- An unbalanced load on the rotating system
is generated as a consequence of these three factors:
- Unbalanced mass of the system (rotor) about its axis of rotation (MASS field on the UNBALNC entry).
- The magnitude of separation between the rotating axis and the unbalanced mass (ZOFFSET and ROFFSET fields on the UNBALNC entry).
- The angular spin speed of the rotor (specific fields on the RGYRO and RSPINR Bulk Data Entries).
- ROFFSET
field:
- Each entry in the TABLEDi entry specifies the distance by which the unbalanced mass is offset in the X-Y plane (perpendicular to the axis of rotation of the rotor).
- Each entry in the TABLEDi entry specifies the distance by which the unbalanced mass is offset in the Z direction (axis of rotation of the rotor).
Figure 1. - The rotation of the unbalanced load occurs in the positive Z direction which is defined by GRIDA and GRIDB on the RSPINR Bulk Data Entry.
- The initial position of the unbalanced mass and the direction of its subsequent rotation are defined with respect to a cylindrical coordinate system. Its angular position is measured from the plane defined by both the Z-axis and the vector (X1, X2, and X3) with THETA=0.0 being the direction of the vector (X1, X2, and X3) itself. The rotation of the unbalanced load occurs in the positive Z direction.
- For frequency response, the UNBALNC load can only be used for a synchronous analysis. This is because in asynchronous whirl, the loading frequency is different from the rotor speed, and the latter is the frequency of the unbalance load vector.