Determination of Young's modulus for spruce, fir and isotropic materials by the resonance flexure method with comparisons to static flexure and other dynamic methods |
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Authors: | Daniel W Haines Jean-Michel Leban Christian Herbé |
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Institution: | (1) Mechanical Engineering Department, Manhattan College, 10471 Riverdale, NY, USA;(2) Equipe de Recherches sur la Qualité des Bois Institut National de la Recherche Agronomique, 54280 Champenoux, France;(3) Equipe de Recherches sur la Qualité des Bois Institut National de la Recherche Agronomique, 54280 Champenoux, France |
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Abstract: | Summary Dynamic methods provide rapid and accurate means to determine Young's modulus, i.e. the modulus of elasticity, of wood. For dry, clear specimens of épicéa commun (Norway spruce, picea excelsa) and sapin pictiné (silver fir, abies amabilis) we present a comparison of results from tests by a resonance flexure method with results obtained from four-point static flexure tests. For a wide range of specimen size the resonance flexure method provides a simpler, more rapidly performed alternative to the classical static flexure method, giving Young's modulus values which are for the spruce and fir specimens of this study, nearly identical to those calculated from the static flexure tests. Results are also presented which show that a resonance longitudinal method yields higher values of Young's modulus and an ultrasonic method yields still higher values. We provide also a comparison of the four test methods applied to isotropic materials.The authors wish to thank Pierre Michel and André Perrin for preparing the test specimens and components of the test apparatus for this study |
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