Improvement of natural fiber cement composite for roofing applications through addition of waste tire rubber: An investigation of the physical, mechanical, thermal, and acoustic properties

Kanokon Hancharoen , Parames Kamhangrittirong , Pimsiree Suwanna
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Abstract

In this research, a new type of natural fiber-rubber-cement (FRC) composite for roofing applications is presented. This composite was made with Portland cement, coated oil palm fibers, and modified waste tire rubber powders. The implementation of fiber coating and rubber modification methods has resulted in a more effective blending and binding of the fibers and rubber powders with the cement paste. This has notably improved the adhesion between the fibers and cement, as well as between the rubber powders and cement within the composite. The FRC composite demonstrated significantly lower water absorption and thermal conductivity, with reductions of 85% and 18%, respectively, compared to the fiber-cement (FC) composite lacking rubber powders. Additionally, the FRC composite exhibited improvements in flexural strength and noise reduction coefficient by 10% and 20%, respectively, in comparison to the FC composite. Thus, incorporating rubber powders can enhance the properties of the FC composite. Consequently, the FRC composite is proposed as a viable alternative roofing material suitable for use in energy-efficient buildings.

通过添加废轮胎橡胶改进屋顶用天然纤维水泥复合材料:物理、机械、热和声学特性研究
本研究介绍了一种用于屋顶应用的新型天然纤维-橡胶-水泥(FRC)复合材料。这种复合材料由波特兰水泥、涂层油棕纤维和改性废轮胎橡胶粉制成。纤维涂层和橡胶改性方法的实施使纤维和橡胶粉与水泥浆的混合和结合更加有效。这显著提高了纤维与水泥之间以及复合材料中橡胶粉与水泥之间的粘附力。与缺少橡胶粉的纤维水泥(FC)复合材料相比,FRC 复合材料的吸水性和导热性明显降低,分别降低了 85% 和 18%。此外,与 FC 复合材料相比,FRC 复合材料的抗弯强度和降噪系数分别提高了 10%和 20%。因此,加入橡胶粉可以提高 FC 复合材料的性能。因此,建议将 FRC 复合材料作为适用于节能建筑的一种可行的替代屋顶材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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