The aim of this study was to investigate the suitability of using recycled low density polyethylene (RLDPE) in wood board manufacturing. The composite board was produced by compressive moulding by increasing the percentage of LDPE from 30 to 50 wt% with interval of 10 wt% at a temperatures of 140 and 180°C, pressure of 30 to 40 Kg/cm2and pressing time 7 to 13 min. The microstructure and mechanical properties: Modulus of rupture (MOR), modulus of elasticity (MOE), tensile strength, impact strength properties of boards were determined. The results showedthat high modulus of rupture of 20.31 N/mm2and MOE of 1363 N/mm2were obtained from board produced at 140°C, 60/40 wt% wood particles per LDPE content.The uniform distribution of particles and the recycled LDPE in the microstructure of composites board are the major factor responsible for the improvement in the mechanical properties. The results showed that the MOE and MOR meet the minimum requirements of the European standards, for general purpose. The boards produced had tensile strength that is within the requirement. Hence this LDPE can be used in board production for general purpose applications.Keywords:Microstructure, polyethylene, physical and mechanical properties.
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机译:这项研究的目的是调查在木板制造中使用回收的低密度聚乙烯(RLDPE)的适用性。通过在140和180°C,30至40 Kg / cm2的压力和7至13分钟的加压时间将LDPE的百分比从30 wt%增加到50 wt%,以10 wt%的间隔增加的压缩模制生产复合板。确定了板的微观结构和机械性能:断裂模量(MOR),弹性模量(MOE),拉伸强度,冲击强度性能。结果表明,在140°C的条件下生产的纸板具有20.31 N / mm2的高断裂模量和1363 N / mm2的MOE,每个LDPE含量为60/40 wt%的木材颗粒。微观结构中颗粒的均匀分布和回收的LDPE复合板的厚度是改善机械性能的主要因素。结果表明,MOE和MOR满足通用的欧洲标准的最低要求。生产的板的抗拉强度在要求范围内。因此,该LDPE可用于一般用途的板材生产中。关键词:微结构,聚乙烯,物理和机械性能。
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