Thermal and Mechanical Performance of 3-Phase Polymer Composite Panels for Structural Applications

IF 3.4 4区 化学 Q2 POLYMER SCIENCE International Journal of Polymer Science Pub Date : 2024-04-03 DOI:10.1155/2024/8822860
Muhammad Zubair Jilani, Zulfiqar Ahmad Rehan, Zuhaib Ahmad, Madeha Jabbar, Yasir Nawab, Khubab Shaker
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Abstract

The objective of this study is to establish a conceptual framework for fiber-reinforced polymer composite (FRPC) panels designed for structural purposes through the incorporation of a third phase (fillers). The present investigation was aimed to design and fabricate 3-phase polymer composite panels that offer enhanced thermal insulation and strength while maintaining low material and labor expenses. Two types of fibrous reinforcements (jute fabric and glass fabric) of different origins were used as reinforcement; polypropylene (PP) was used as the matrix, and microcrystalline cellulose (MCC) was used as particle reinforcement material. The composite materials were fabricated with different MCC concentrations (0, 2 wt%, and 4 wt%), using a hot compression molding technique. It was found that MCC helped to enhance the mechanical performance of the composite panels, while the thermal conductivity showed a slight reduction due to lower concentrations of MCC used. For polypropylene/glass (PPG) composites, thermal conductivity was reduced from 0.214 to 0.193 W/m·K by the addition of 4% MCC fillers. Similarly, for polypropylene/jute (PPJ) composites, it was reduced from 0.14 to 0.126 W/m·K by 4% MCC fillers. The Charpy impact strength of both PPG and PPJ composites was enhanced by the addition of fillers, and the effect was more significant in the case of PPG (increased from 24.83 to 43.98 kJ/m2 for 4% fillers). Cost analysis of the composite panels was also done, showing PPJ panels to be slightly cheaper as compared to PPG. The findings indicate that the developed composite panels have the potential to serve as partitioning as well as the outer shield of the building due to their effective thermal and mechanical properties.
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用于结构应用的三相聚合物复合板的热性能和机械性能
本研究的目的是为纤维增强聚合物复合材料(FRPC)板建立一个概念框架,通过加入第三阶段(填料)来实现结构目的。本研究旨在设计和制造三相聚合物复合板,在保持低材料和劳动力成本的同时,提高隔热性能和强度。我们使用了两种不同产地的纤维增强材料(黄麻织物和玻璃纤维织物)作为增强材料;聚丙烯(PP)作为基体,微晶纤维素(MCC)作为颗粒增强材料。采用热压成型技术,以不同的 MCC 浓度(0、2 wt% 和 4 wt%)制造复合材料。研究发现,MCC 有助于提高复合材料板的机械性能,而由于使用的 MCC 浓度较低,导热性能略有下降。对于聚丙烯/玻璃(PPG)复合材料,添加 4% 的 MCC 填料后,热导率从 0.214 W/m-K 降至 0.193 W/m-K。同样,对于聚丙烯/黄麻(PPJ)复合材料,添加 4% 的 MCC 填料后,导热系数从 0.14 W/m-K 降至 0.126 W/m-K。添加填料后,PPG 和 PPJ 复合材料的夏比冲击强度都有所提高,其中 PPG 的影响更为显著(添加 4% 的填料后,冲击强度从 24.83 kJ/m2 提高到 43.98 kJ/m2)。此外,还对复合板进行了成本分析,结果显示 PPJ 板的成本比 PPG 板稍低。研究结果表明,所开发的复合板具有有效的热性能和机械性能,因此有潜力用作建筑物的隔墙和外护板。
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来源期刊
CiteScore
6.10
自引率
0.00%
发文量
55
审稿时长
>12 weeks
期刊介绍: The International Journal of Polymer Science is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles on the chemistry and physics of macromolecules.
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