Vibrational properties of wood plastic plywood |
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Authors: | Yingcheng Hu Tetsuya Nakao Takahisa Nakai Jiyou Gu Fenghu Wang |
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Affiliation: | (1) College of Material Science and Engineering, Northeast Forestry University, Harbin, 150040, China;(2) Faculty of Science and Engineering, Shimane University, Matsue 690-8504, Japan |
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Abstract: | Wood plastic plywood (WPPW), composed of veneer and styrofoam, was manufactured without special adhesives such as urea–formaldehyde or phenol–formaldehyde resins, and its vibrational properties were investigated. WPPW can be produced at 1MPa and 160°C for 9min (three-ply) and 12min (five-ply). The dynamic Youngs modulus reached its highest value when the styrofoam thickness was 30mm. The sound velocity and dynamic Youngs modulus had minimum values at a grain angle of 45°. The results for dynamic Youngs moduli measured by a longitudinal vibration method and an in-plane flexural vibration method were almost the same. Dynamic shear moduli were measured by an in-plane surface wave propagation test and an in-plane flexural vibration method. From the experimental results, the dynamic shear moduli at 0° and 90° by the two methods were relatively close, although the surface wave propagation test results were higher than those from the flexural vibration method. Dynamic shear moduli at a grain angle of 45° measured by the in-plane surface wave propagation test and calculated from theory were relatively close. The surface wave propagation test results were smaller than the results calculated from theory. The shear stress distribution factors were about 1.000–1.189 for WPPW. |
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Keywords: | Wood plastic plywood Sound velocity Dynamic Young /content/r65m7214j1j01347/xxlarge8217.gif" alt=" rsquo" align=" BASELINE" BORDER=" 0" >s modulus Dynamic shear modulus Vibration method |
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