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FREQ5 |
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FREQ5 |
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»Click here to display Table of Contents«
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FREQ5 |
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FREQ5 |
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Bulk Data Entry
FREQ5 – Frequency List, Alternate Form 5
Description
Defines a set of frequencies for the modal method of frequency response analysis by specification of a frequency range and fractions of the natural frequencies within that range.
Format
(1) |
(2) |
(3) |
(4) |
(5) |
(6) |
(7) |
(8) |
(9) |
(10) |
FREQ5 |
SID |
F1 |
F2 |
FR1 |
FR2 |
FR3 |
FR4 |
FR5 |
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FR6 |
FR7 |
etc. |
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Define a set of frequencies such that the list of frequencies will be 0.6, 0.8, 0.9, 0.95, 1.0, 1.05, 1.1, and 1.2 times each modal frequency between 20 and 200.
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Field |
Contents |
SID |
Set identification number. No default (Integer > 0) |
F1 |
Lower bound of modal frequency range in cycles per unit time. Default = 0.0 (Real > 0.0) |
F2 |
Upper bound of frequency range in cycles per unit time. Default = 1.0E20 (Real > 0.0, F2 > F1) |
FRi |
Fractions of the natural frequencies in the range F1 to F2. No default (Real > 0.0) |
| 1. | FREQ5 applies only to the modal method frequency response analysis. |
| 2. | FREQ5 entries must be selected in the Subcase Information section with FREQUENCY = SID. |
| 3. | The frequencies defined by this entry are given by  . |
where,
are the modal frequencies in the range F1 through F2.
If this computation results in excitation frequencies less than F1 and greater than F2, those computed excitation frequencies are ignored.
| 4. | Excitation frequencies may be based on natural frequencies that are not within the range (F1 and F2) as long as the calculated excitation frequencies are within the range. |
| 5. | Since the forcing frequencies are near structural resonances, it is important that some amount of damping be specified. |
| 6. | All FREQi entries with the same set identification numbers will be used. Duplicate frequencies will be ignored. fN and fN-1 are considered duplicated if: |
where, DFREQ is a user parameter, with a default of 10-5. The values fMAX and fMIN are the maximum and minimum excitation frequencies of the combined FREQi entries.
| 7. | In design optimization, the excitation frequencies are derived from the modal frequencies computed at each design iteration. |
| 8. | In modal analysis, solutions for modal degrees-of-freedom from rigid body modes at zero excitation frequencies may be discarded. Solutions for non-zero modes are retained. |
| 9. | This card is represented as a loadcollector in HyperMesh. |
See Also:
