Measurement of rotating beam vibration using optical (DIC) techniques
Measurement of rotating beam vibration using optical (DIC) techniques
In this paper, an experimental study is presented to validate a dynamic model of a rotating beam. The majority of existing vibration instrumentation is typically wired to an acquisition system through a connection using slip rings. An issue is the inherent signal to noise and the reliability of slip ring electrical connections. Herein, an experimental test rig is designed to overcome these issues. In addition, the rig is conceived to incorporate capabilities such as applying variable rotational speed using a variable frequency driver and provide vertical base excitation input to the centre of the rotation using a linear bearing. The tests are performed using random excitation on the fixed end of the rotating cantilever beam to excite the flapwise modes of the beam. The responses are then measured optically using a single high-speed camera, and the images are post-processed using a digital image correlation (DIC) method. This non-contacting optical method is used to extract the deflection of the beam as a function of time. The frequency response functions are then obtained from the measured responses. The modal frequencies are estimated and compared with numerical simulations to validate a Rayleigh-Ritz and FE numerical model for different rotational speeds.
477-482
Yashar, Ahmed
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Ferguson, Neil
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Ghandchi Tehrani, Maryam
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Yashar, Ahmed
8cb804e4-b6c8-472d-afb3-0e645e98af66
Ferguson, Neil
8cb67e30-48e2-491c-9390-d444fa786ac8
Ghandchi Tehrani, Maryam
c2251e5b-a029-46e2-b585-422120a7bc44
Yashar, Ahmed, Ferguson, Neil and Ghandchi Tehrani, Maryam
(2017)
Measurement of rotating beam vibration using optical (DIC) techniques.
Procedia Engineering, 199, .
(doi:10.1016/j.proeng.2017.09.052).
Abstract
In this paper, an experimental study is presented to validate a dynamic model of a rotating beam. The majority of existing vibration instrumentation is typically wired to an acquisition system through a connection using slip rings. An issue is the inherent signal to noise and the reliability of slip ring electrical connections. Herein, an experimental test rig is designed to overcome these issues. In addition, the rig is conceived to incorporate capabilities such as applying variable rotational speed using a variable frequency driver and provide vertical base excitation input to the centre of the rotation using a linear bearing. The tests are performed using random excitation on the fixed end of the rotating cantilever beam to excite the flapwise modes of the beam. The responses are then measured optically using a single high-speed camera, and the images are post-processed using a digital image correlation (DIC) method. This non-contacting optical method is used to extract the deflection of the beam as a function of time. The frequency response functions are then obtained from the measured responses. The modal frequencies are estimated and compared with numerical simulations to validate a Rayleigh-Ritz and FE numerical model for different rotational speeds.
Text
1-s2.0-S1877705817334823-main (1)
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Accepted/In Press date: 30 April 2017
e-pub ahead of print date: 12 September 2017
Venue - Dates:
EURODYN 2017: X International Conference on Structural Dynamics, , Rome, Italy, 2017-09-10 - 2017-09-13
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Local EPrints ID: 428883
URI: http://eprints.soton.ac.uk/id/eprint/428883
PURE UUID: 46e7c4e1-12d8-465c-b313-6a69d583e818
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Date deposited: 13 Mar 2019 19:19
Last modified: 16 Mar 2024 02:34
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Author:
Ahmed Yashar
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