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Behaviour of stress wave propagation in utility timber pole

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posted on 2013-01-01, 00:00 authored by Mahbube SubhaniMahbube Subhani, J Li, B Samali
Non-destructive testing has been used for many years to evaluate the in situ condition of timber piles. Longitudinal impact is usually applied on the top of piles to induce longitudinal wave to detect faults in piles due to the fact that the longitudinalwave has less dispersive nature at lowfrequency. On the other hand,when it comes to evaluation of poles in situ, it is different as poles are partly embedded in soil and it is more practical to produce bending waves, as the top of the pole is not easily accessible. However, bending wave is known for its highly dispersive nature; especially in the low frequency range which is usually induced in low strain integrity testing. As bending wave can be considered as a hybrid of longitudinal and shear waves, it will be helpful, if it could detect the component of these twowaves separately.To do so, components of displacements or accelerations along radial and longitudinal directions need to be determined. By applying Fast Fourier Transform (FFT) on the signals, the dominant frequencies can be obtained. It has been found that, the longitudinal component decreases along radial direction which indicates the presence of bending wave component and this finding allows to the application of ContinuousWavelet Transform (CWT) on the longitudinal component of wave signals in order to obtain phase velocity. Phase velocities at different frequencies are then determined to draw the dispersive curve and compare with analytical phase velocity curve. The dispersion curve matched well with the analytical curve. © 2013 Taylor & Francis Group.

History

Chapter number

173

Pagination

1077-1082

ISBN-13

9780415633185

Language

eng

Publication classification

B Book chapter, B1.1 Book chapter

Copyright notice

2013, Taylor & Francis

Editor/Contributor(s)

Samali B, Attard M, Song C

Publisher

Taylor & Francis

Place of publication

London, Eng.

Title of book

From Materials to Structures: Advancement through Innovation

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