Propagation behavior of acoustic wave in wood |
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Authors: | Huadong Xu Guoqi Xu Lihai Wang Lei Yu |
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Institution: | 1. Northeast Forestry University, Harbin, China, 150040
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Abstract: | We used acoustic tests on a quarter-sawn poplar timbers to study the effects of wood anisotropy and cavity defects on acoustic wave velocity and travel path, and we investigated acoustic wave propagation behavior in wood. The timber specimens were first tested in unmodified condition and then tested after introduction of cavity defects of varying sizes to quantify the transmitting time of acoustic waves in laboratory conditions. Two-dimensional acoustic wave contour maps on the radial section of specimens were then simulated and analyzed based on the experimental data. We tested the relationship between wood grain and acoustic wave velocity as waves passed in various directions through wood. Wood anisotropy has significant effects on both velocity and travel path of acoustic waves, and the velocity of waves passing longitudinally through timbers exceeded the radial velocity. Moreover, cavity defects altered acoustic wave time contours on radial sections of timbers. Acoustic wave transits from an excitation point to the region behind a cavity in defective wood more slowly than in intact wood. |
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Keywords: | acoustic wave propagation behavior wood velocity |
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