Thermal conductivity of wood-plastic composites as insulation panels: theoretical and experimental analysis

Hadeel Mahmood Mussa, Tawfeeq Wasmi M. Salih
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引用次数: 2

Abstract

The aim of this study is evaluating the thermal performance of wood plastic composites (WPCs) as insulation panels depending on the values of thermal conductivity (k). Three types of wood flour taken from (pine, oak and walnut) trees with concentrations (10, 20, 30 %), and two types of thermoplastics; high density polyethylene (HDPE) and polypropylene (PP), have been selected for the evaluation. Theoretical work uses mathematical relations in the calculation of thermal conductivity of WPCs. Experimental work includes the manufacturing of the specimens, the measurements of k-values. The results show that the increasing in wood content leads to a reduction in k-values for WPCs by 6-8.5% for each 10% addition of wood. The k-values of WPCs tend to increase, when temperatures rise from 25-75 oC, by 20-25% for HDPE-wood composites, and by 15-20% for PP-wood composites. Furthermore, 10 % of water content will increase the k-value by 10-20%.
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木塑复合材料保温板的导热性能:理论与实验分析
本研究的目的是根据导热系数(k)的值来评估木塑复合材料(wpc)作为隔热板的热性能。三种木粉取自浓度为(10,20,30 %)的树木(松树,橡树和核桃),以及两种热塑性塑料;选择高密度聚乙烯(HDPE)和聚丙烯(PP)作为评价材料。理论工作利用数学关系计算复合材料的导热系数。实验工作包括试样的制作、k值的测量。结果表明,木材含量的增加导致WPCs的k值每增加10%的木材降低6-8.5%。当温度从25 ~ 75℃升高时,木塑复合材料的k值增加20 ~ 25%,pp -木塑复合材料的k值增加15 ~ 20%。此外,10%的含水量会使k值增加10-20%。
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审稿时长
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