Moso bamboo phyllostachys pubescens8/12/2023 Obataya E, Kitin P, Yamauchi H (2007) Bending characteristics of bamboo ( Phyllostachys pubescens) with respect to its fiber–foam composite structure. International Network for Bamboo and Rattans (INBAR), Beijing, Tech rep no. Liese W (1998) The anatomy of bamboo culms. Jiang ZH, Sun ZJ, Ren HQ (2006) Application of advanced bio-composites in wind blades (in Chinese). Inokuchi Y, Fushitani M, Kubo T, Sato K (2002) Effects of volume fraction of bundle sheath and water extractives on bending creep behavior of bamboo under changing moisture conditions (in Japanese). Inokuchi Y, Fushitani M, Kubo T, Sato K (1999) Effects of water extractives on the moisture-content dependence of vibrational properties of bamboo (in Japanese). Inokuchi Y, Fushitani M, Chuma S, Ozawa M, Kubo T, Sato K (1997) Effects of volume fraction of bundle sheath on the vibrational properties of bamboo (in Japanese). Princeton University Press, USA, p 287 (ISBN 0) Gordon JE (1984) The new science of strong materials or why you don’t fall through the floor. Zairyou 39:847–851ĭeshpande AP, Rao MB, Rao CL (2000) Extraction of bamboo fibers and their use as reinforcement in polymeric composites. Wood Sci Technol 39(6):448–459Ĭhuma S, Hirohashi M, Ohgama T, Kasahara Y (1990) Composite structure and tensile properties of mousou bamboo (in Japanese). This might be due to the interaction between components in bamboo in which parenchymatous ground tissue can pass loads and distribute the stresses loaded on fibers.Īhmad M, Kamke FA (2005) Analysis of calculate bamboo for structural composite materials: physical and mechanical properties. Results show that the tensile strength of bamboo fiber obtained from the tests on bamboo blocks was higher than that on separated fiber bundles. Further tensile tests on separated bamboo fiber bundles were analyzed. The macrographs of fractured bamboo blocks and the micrographs of fracture surfaces obtained by scanning electron microscope were also analyzed. The tensile strength and modulus of elasticity of bamboo fiber and parenchymatous tissue were estimated according to the linear equations obtained by regression analysis. More significant linear relationships were found between tensile properties and volume fractions of the bamboo components. In order to analyze the mechanical properties of bamboo as a function of its components, tensile tests were performed on bamboo blocks and the corresponding volume fractions of fiber and parenchymatous ground tissue were measured. Bamboo is a fiber-reinforced bio-composite since its culm wall is mainly composed of parenchymatous ground tissue in which vascular bundles are embedded.
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