Effect of temperature and Humidity on the Thermal Conductivity λ of Insulation Materials

Weronika Kendzierawska, Maciej Trochonowicz
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Abstract

The aim of this article is to address the influence of air humidity and testing temperature on the thermal conductivity coefficient (λ) of various thermal insulation materials. This group includes wood-based materials, rock wools, heat-insulating renders, climate boards, and lightweight cellular concretes. These materials are used both indoors and outdoors in buildings. Over the course of several years, data were collected from laboratory tests to determine the thermal conductivity coefficient (λ) in relation to increases in temperature and humidity. The obtained results were compared with values provided by the manufacturers of the insulation materials. The aforementioned research was carried out due to the rather high sorption of most materials and thus the possibility of them becoming humid at high air humidity. Because of the very large difference in the thermal conductivity coefficient of water and air, a relatively small increase in the mass moisture content of the materials results in a loss of insulation.
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温度和湿度对绝缘材料导热率 λ 的影响
本文旨在探讨空气湿度和测试温度对各种隔热材料导热系数(λ)的影响。这组材料包括木质材料、岩棉、隔热灰泥、气候板和轻质蜂窝混凝土。这些材料在建筑物的室内和室外都有使用。几年来,我们从实验室测试中收集数据,以确定导热系数 (λ)与温度和湿度升高的关系。所得结果与隔热材料制造商提供的数值进行了比较。进行上述研究的原因是,大多数材料的吸附性相当高,因此在空气湿度较高时可能会变得潮湿。由于水和空气的导热系数相差很大,因此材料的含水量相对较小的增加就会导致隔热性能下降。
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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