The paper addresses the power flow suppression in an elastic beam of the tubular cross section (a pipe) at relatively low excitation frequencies by deploying a small number of equally spaced inertial attachments. The methodology of boundary integral equations is used to obtain an exact solution of the problem in vibrations of this structure. The power flow analysis in a pipe with and without equally spaced eccentric inertial attachments is performed and the effect of suppression of the energy transmission is demonstrated theoretically. These results are put in the context of predictions from the classical Floquet theory for an infinitely long periodic structure. Parametric studies are performed to explore sensitivities of this effect to variations in the number of attachments. The theoretically predicted eigenfrequencies and insertion loss are compared with the dedicated experimental data.
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e-mail: svs@m-tech.aau.dk
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August 2012
Research Papers
On Power Flow Suppression in Straight Elastic Pipes by Use of Equally Spaced Eccentric Inertial Attachments
Sergey Sorokin,
e-mail: svs@m-tech.aau.dk
Sergey Sorokin
Department of Mechanical and Manufacturing Engineering, Aalborg University Pontoppidanstraede 101, Aalborg East
, DK 9220, Denmark
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Ole Holst-Jensen
Ole Holst-Jensen
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Sergey Sorokin
Department of Mechanical and Manufacturing Engineering, Aalborg University Pontoppidanstraede 101, Aalborg East
, DK 9220, Denmark
e-mail: svs@m-tech.aau.dk
Ole Holst-Jensen
J. Vib. Acoust. Aug 2012, 134(4): 041003 (9 pages)
Published Online: May 31, 2012
Article history
Received:
December 15, 2010
Revised:
June 7, 2011
Published:
May 29, 2012
Online:
May 31, 2012
Citation
Sorokin, S., and Holst-Jensen, O. (May 31, 2012). "On Power Flow Suppression in Straight Elastic Pipes by Use of Equally Spaced Eccentric Inertial Attachments." ASME. J. Vib. Acoust. August 2012; 134(4): 041003. https://doi.org/10.1115/1.4005652
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