Impact of Water-Repellent Products on the Moisture Transport Properties and Mould Susceptibility of External Thermal Insulation Composite Systems

R. Roncon, G. Borsoi, J. Parracha, I. Flores-Colen, R. Veiga, L. Nunes
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引用次数: 11

Abstract

External Thermal Insulation Composite Systems (ETICS) are constructive solutions widely used to increase the thermal insulation in new and retrofitted buildings. However, these systems can present several anomalies due to their constant exposure to weathering agents and anthropic factors. Water is generally the major cause of degradation. Thus, the application of water-repellent products can minimize the appearance of anomalies and increase the durability of the systems. In this paper, acrylic-based and siloxane-based hydrophobic products were applied to ETICS, with the aim of assessing the compatibility, effectiveness, and durability of these products. The moisture transport properties and mould susceptibility were assessed through laboratory tests on untreated and treated specimens. The durability of the hydrophobic treatments was also evaluated through artificial aging tests (heat-cold and freeze-thaw cycles). Results show that the protection products generally decreased water absorption, slightly decreased the drying rate, and presented adequate water vapor permeability. After aging, the products still had reasonable effectiveness and, with one exception, improved the water vapor diffusion of the systems. Additionally, ETICS underwent an alteration in the finishing coat (possible modification of the porosity) due to the aging cycles. No clear linear correlation was found between the contact angle values and water absorption results, evidencing the influence of other factors related to the composition of the water-repellent products.
拒水剂对外保温复合材料系统水分传输性能和霉菌易感性的影响
外保温复合系统(ETICS)是一种建设性的解决方案,广泛应用于新建和改造建筑的保温效果。然而,由于这些系统不断暴露于风化剂和人为因素,可能会出现一些异常。水通常是造成退化的主要原因。因此,防水产品的应用可以最大限度地减少异常的出现,并增加系统的耐用性。本文将丙烯酸基和硅氧烷基疏水产品应用于ETICS,目的是评估这两种产品的相容性、有效性和耐久性。通过对未经处理和处理的样品进行实验室测试,评估了水分输送特性和霉菌敏感性。通过人工老化试验(冷热循环和冻融循环)对疏水处理的耐久性进行了评价。结果表明,保护剂的吸水率普遍降低,干燥速率略有降低,透气性良好。老化后,产品仍然具有合理的有效性,除了一个例外,改善了系统的水蒸气扩散。此外,由于老化循环,ETICS经历了面漆的改变(可能是孔隙度的改变)。接触角值与吸水率之间没有明显的线性关系,这表明与拒水剂成分有关的其他因素也有影响。
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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