Estimation of the Rotational Terms of the Dynamic Response Matrix

The dynamic response of a structure can be described by both its translational and rotational receptances. The latter ones are frequently not considered because of the difficulties in applying a pure moment excitation or in measuring rotations. However, in general, this implies a reduction up to 75%...

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Bibliographic Details
Published in:Shock and vibration 2004-01, Vol.11 (3-4), p.333-350
Main Authors: Montalvao, D, Ribeiro, A M R, Maia, N M M, Silva, J M M
Format: Article
Language:English
Subjects:
Centroids
Displacement measurement
Dynamic response
Excitation
Inertia
Mathematical models
Rotational
Vibration
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Summary:The dynamic response of a structure can be described by both its translational and rotational receptances. The latter ones are frequently not considered because of the difficulties in applying a pure moment excitation or in measuring rotations. However, in general, this implies a reduction up to 75% of the complete model. On the other hand, if a modification includes a rotational inertia, the rotational receptances of the unmodified system are needed. In one method, more commonly found in the literature, a so called T -block is attached to the structure. Then, a force, applied to an arm of the T -block, generates a moment together with a force at the connection point. The T -block also allows for angular displacement measurements. Nevertheless, the results are often not quite satisfactory. In this work, an alternative method based upon coupling techniques is developed, in which rotational receptances are estimated without the need of applying a moment excitation. This is accomplished by introducing a rotational inertia modification when rotating the T -block. The force is then applied in its centroid. Several numerical and experimental examples are discussed so that the methodology can be clearly described. The advantages and limitations are identified within the practical application of the method.
ISSN:1070-9622
1875-9203
DOI:10.1155/2004/780837