Vibration reduction by using the idea of phononic crystals in a pipe-conveying fluid

Flexural vibration in a pipe system conveying fluid is studied. The pipe is designed using the idea of the phononic crystals. Using the transfer matrix method, the complex band structure of the flexural wave is calculated to investigate the gap frequency range and the vibration reduction in band gap...

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Veröffentlicht in:	Journal of sound and vibration 2008-11, Vol.318 (1), p.193-205
Hauptverfasser:	Yu, Dianlong, Wen, Jihong, Zhao, Honggang, Liu, Yaozong, Wen, Xisen
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Fatigue (materials) Flows in ducts, channels, nozzles, and conduits Fluid dynamics Fluid flow Fluids Fundamental areas of phenomenology (including applications) Gaps Lattice dynamics Physics Pipe Reduction Solid mechanics Structural acoustics and vibration Structural and continuum mechanics Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
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container_end_page	205
container_issue	1
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container_title	Journal of sound and vibration
container_volume	318
creator	Yu, Dianlong Wen, Jihong Zhao, Honggang Liu, Yaozong Wen, Xisen
description	Flexural vibration in a pipe system conveying fluid is studied. The pipe is designed using the idea of the phononic crystals. Using the transfer matrix method, the complex band structure of the flexural wave is calculated to investigate the gap frequency range and the vibration reduction in band gap. Gaps with Bragg scattering mechanism and locally resonant mechanism can exist in a piping system with fluid loading. The effects of various parameters on the gaps are considered. The existence of flexural vibration gaps in a periodic pipe with fluid loading lends new insight into the vibration control of pipe system.
doi_str_mv	10.1016/j.jsv.2008.04.009
format	Article
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The pipe is designed using the idea of the phononic crystals. Using the transfer matrix method, the complex band structure of the flexural wave is calculated to investigate the gap frequency range and the vibration reduction in band gap. Gaps with Bragg scattering mechanism and locally resonant mechanism can exist in a piping system with fluid loading. The effects of various parameters on the gaps are considered. 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The pipe is designed using the idea of the phononic crystals. Using the transfer matrix method, the complex band structure of the flexural wave is calculated to investigate the gap frequency range and the vibration reduction in band gap. Gaps with Bragg scattering mechanism and locally resonant mechanism can exist in a piping system with fluid loading. The effects of various parameters on the gaps are considered. 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The pipe is designed using the idea of the phononic crystals. Using the transfer matrix method, the complex band structure of the flexural wave is calculated to investigate the gap frequency range and the vibration reduction in band gap. Gaps with Bragg scattering mechanism and locally resonant mechanism can exist in a piping system with fluid loading. The effects of various parameters on the gaps are considered. The existence of flexural vibration gaps in a periodic pipe with fluid loading lends new insight into the vibration control of pipe system.</abstract><cop>London</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.jsv.2008.04.009</doi><tpages>13</tpages></addata></record>
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source	Elsevier ScienceDirect Journals Complete
subjects	Acoustics Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Fatigue (materials) Flows in ducts, channels, nozzles, and conduits Fluid dynamics Fluid flow Fluids Fundamental areas of phenomenology (including applications) Gaps Lattice dynamics Physics Pipe Reduction Solid mechanics Structural acoustics and vibration Structural and continuum mechanics Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
title	Vibration reduction by using the idea of phononic crystals in a pipe-conveying fluid
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