Wave structure analysis of guided waves in a bar with an arbitrary cross-section

Both dispersion curves and wave structures, which are displacement distributions on a bar cross-section, are essential for guided wave NDEs. Theoretical dispersion curves and wave structures for a bar with an arbitrary cross-section are derived in this paper using a special modeling technique called...

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Veröffentlicht in:	Ultrasonics 2006, Vol.44 (1), p.17-24
Hauptverfasser:	Hayashi, Takahiro, Tamayama, Chiga, Murase, Morimasa
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Sprache:	eng
Schlagworte:	Acoustics Dispersion curve Exact sciences and technology Fundamental areas of phenomenology (including applications) Guided wave Physics Semi-analytical finite element method Solid mechanics Structural and continuum mechanics Ultrasonics, quantum acoustics, and physical effects of sound Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Wave structure
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creator	Hayashi, Takahiro Tamayama, Chiga Murase, Morimasa
description	Both dispersion curves and wave structures, which are displacement distributions on a bar cross-section, are essential for guided wave NDEs. Theoretical dispersion curves and wave structures for a bar with an arbitrary cross-section are derived in this paper using a special modeling technique called the semi-analytical finite element method (SAFEM). The guidelines for guided wave NDEs of bar-like structures are also shown based on wave structure and modal analysis. First, the relationship between the dispersion curves and their corresponding wave structures were obtained for a square rod. Modes with longitudinal vibration have higher group velocities and torsional modes have constant phase and group velocities. Next, the relationship between the dispersion curves and wave structures for a rail are detailed. The rail is used to represent a bar with a complex cross-section. Similar to the square rod results, the rail’s longitudinal modes have higher group velocities. However, the rail contains modes with local vibration. Finally, single mode detection and excitation techniques are introduced. A single mode can be obtained by detecting and exciting with a weighted function that corresponds to a specific mode’s wave structure.
doi_str_mv	10.1016/j.ultras.2005.06.006
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subjects	Acoustics Dispersion curve Exact sciences and technology Fundamental areas of phenomenology (including applications) Guided wave Physics Semi-analytical finite element method Solid mechanics Structural and continuum mechanics Ultrasonics, quantum acoustics, and physical effects of sound Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Wave structure
title	Wave structure analysis of guided waves in a bar with an arbitrary cross-section
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