The purpose of this study was to determine some physical and mechanical properties of sandwich panels manufactured from the core of Paulownia wood and surfaces of multilayer of fiberglass and resins. Paulownia was selected among Hardwoods because of its s low density (0.26 g/cm3) and high strength/weight ratio. Eight treatments were used for experiments: Two kinds of fiberglass (needle and combination of the needle and curtain type), two various resins (polyester and epoxy) and two core thicknesses (9mm and 19mm). Physical properties including density, resistance to water absorption, Dimensional stability, and Mechanical Properties such as internal bonding, compressive and bending strength of panels were measured following ASTM Standard. The results indicated that panels with 19 mm thick core had lower density (0.5g/ cm3) compared to the 9mm thick panels (0.7g/cm3). Bigger volume of wood in the core of panels with higher thickness was the main reason of this result. The experimental results showed that thickness of wood was effective on the modulus of rupture, modulus of elasticity, and compressive strength, significantly. Epoxy resin presented higher internal bond compared to the polyester resin. The two kind of fiberglass (needle one and the combination of needle and curtain type) didn't have noticeable differences on mechanical properties. It also was found that Paulownia is a promising species for manufacturing sandwich panel.
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机译:这项研究的目的是确定由泡桐木芯和玻璃纤维和树脂多层板制成的夹芯板的一些物理和机械性能。泡桐因其低密度(0.26 g / cm3)和高强度/重量比而被选为硬木。实验使用了八种处理方法:两种玻璃纤维(针和帘式的组合以及针),两种树脂(聚酯和环氧树脂)和两种纤芯厚度(9mm和19mm)。遵循ASTM标准测量了包括密度,耐吸水性,尺寸稳定性和机械性能(如面板的内部粘合性,抗压强度和弯曲强度)在内的物理性能。结果表明,与9mm厚的面板(0.7g / cm3)相比,芯板厚度为19mm的面板密度较低(0.5g / cm3)。产生此结果的主要原因是,厚度更大的板芯中的木材体积更大。实验结果表明,木材厚度对断裂模量,弹性模量和抗压强度有显着影响。与聚酯树脂相比,环氧树脂具有更高的内部键合性。两种玻璃纤维(一种是针,另一种是针和帘的组合)在机械性能上没有显着差异。还发现泡桐是制造夹芯板的有前途的物种。
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