CHARACTERIZATION OF SURFACE AND INTERNAL MOISTURE MIGRATION PROCESSES USING NONDESTRUCTIVE MEASUREMENT METHODS

IF 0.6 Q4 ENGINEERING, CIVIL
Maria Tunkiewicz, Poland Building Physics
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引用次数: 0

Abstract

The proper choice of insulation materials contributes to the long and reliable operation of the envelope of a whole building. This paper presents the results of moisture-content determination in materials used for internal thermal insulation under different hygrothermal conditions. In this study, surface and internal moisture contents were measured. Moisture sensors that enable constant monitoring of material moisture content but with different operational characteristics, were used in the analysis. The operating principle of the first method involves the conversion of the amount of infrared radiation reflected in an electric signal, and the second method involves the analysis of the electric impulse propagation velocity. The measurement results of both methods are used to determine the drying-out characteristics of components used in internal thermal insulation and the sorptive properties of the selected materials. The results of comparative studies are also presented for these proposed methods as well as the gravimetric method to determine the usability of the proposed methods in determining the dampness level. The overall measurement results helped determine the relationship between the internal and surface moisture contents and the time needed for the moisture content in different parts of the selected materials to equalize.
用无损测量方法表征表面和内部水分迁移过程
保温材料的正确选择有助于整个建筑围护结构的长期可靠运行。本文介绍了不同湿热条件下内保温材料含水率的测定结果。在本研究中,测量了表面和内部的水分含量。在分析中使用了能够持续监测材料水分含量但具有不同操作特性的水分传感器。第一种方法的工作原理涉及到电信号中反射的红外辐射量的转换,第二种方法涉及到电脉冲传播速度的分析。用这两种方法的测量结果来确定内部绝热用构件的干燥特性和所选材料的吸附性能。比较研究的结果也提出了这些建议的方法,以及重力法,以确定在确定湿度水平提出的方法的可用性。总体测量结果有助于确定内部和表面水分含量之间的关系,以及所选材料不同部分水分含量平衡所需的时间。
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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