THERMAL PERFORMANCE COMPARISON ON FLOORING MATERIALS

14th International Research Conference - FARU 2021 Pub Date : 2021-12-03 DOI:10.31705/faru.2021.16

G. Galabada, P. D. Dharmaratne, H. Galkanda, R. Halwatura

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Abstract

New building materials and technologies that provide thermal comfort are expected to gain popularity in the recent past. Hence, efforts to incorporate new building material solutions are needed to protect potential populations from the threats of thermal stress that cause an increase in temperatures due to climate change. The earth is identified as the most effective building material to improve the thermal comfortability inside the building. Among several building construction materials, the flooring material provides a more effective role with respect to thermal comfort in a building. This paper present the evaluation and comparison work carried out to investigate the thermal performance of newly invented soil based flooring material with other common floorings in Sri Lanka. Temperature measurements were taken on the top surface of flooring materials and were compared the surface temperature of each other and indoor air temperature. The results reveal that the soil floor shows a lesser temperature at a significant level than the other floorings. Hence, it can be proved that the building construction materials play an important role and earth is the best sustainable material with respect to the indoor thermal comfortability thus, end-user.

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地板材料热工性能比较

提供热舒适的新建筑材料和技术有望在最近得到普及。因此，需要努力采用新的建筑材料解决方案，以保护潜在人口免受气候变化引起的温度升高的热应力威胁。地球被认为是提高建筑内部热舒适性的最有效的建筑材料。在几种建筑材料中，地板材料在建筑热舒适方面发挥着更有效的作用。本文介绍了斯里兰卡新发明的土基地板材料与其他常见地板热性能的评价和比较工作。对地板材料的顶面进行了温度测量，并将表面温度与室内空气温度进行了比较。结果表明，土壤层在显著水平上的温度低于其他层。因此，可以证明建筑建筑材料起着重要的作用，因此，对于最终用户来说，土是室内热舒适的最佳可持续材料。

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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14th International Research Conference - FARU 2021

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