Measurement and correlation of high frequency behaviors of a very flexible beam undergoing large deformation
Jae Wook Lee, Hyun Woo Kim, Hi Chun Ku, Wan Suk Yoo
The Journal of Mechanical Science and Technology, vol. 23, no. 10, pp.2766-2775, 2009
Abstract : A correlation method of high frequency behaviors of a very flexible beam undergoing large displacement is presented.
The suggested method based on the experimental modal analysis leads to more accurate correlation results
because it directly uses the modal parameters of each mode achieved from experiment. First, the modal testing and the
parameter identification method are suggested for flexible multibody dynamics. Due to the flexibility of a very thin
beam, traditional testing methods such as impact hammer or contact type accelerometer are not working well. The
suggested measurement with high speed camera, even though the test beam is very flexible, is working well. Using
measurements with a high speed camera, modal properties until the 5th mode are measured. And After measuring each
damping ratio until the 5th mode, a generic damping model is constructed using inverse modal transformation technique.
It¡¯s very interesting that the modal transformation technique can be also applied even in the ANCF simulation
which uses the global displacement and finite slope as the nodal coordinates. The results of experiment and simulation
are compared until the 5th mode frequency, respectively, by using ANCF forced vibration analysis. Through comparison
between numerical simulation and experiment, this study showed that the proposed generic damping matrix, modal
testing and parameter identification method is very proper in flexible multibody dynamic problems undergoing large
deformation.
Keyword : Absolute nodal coordinate formulation; Experimental modal testing; Generic damping model; High frequency |