Vacuum insulation panels (VIP) combine high thermal performance with minor thickness making them fit for building retrofit. However, consisting of a fumed silica core at low air pressure (near vacuum) encapsulated by a protective aluminum containing covering, they are prone to puncturing which inadvertedly increases the internal air pressure and thus worsens the thermal performance. In addition to failure by puncturing, it remains unclear under which hygric circumstances VIPs degrade in time and how this is influenced by the Sd-value of the protective foil and thermal performance of the VIP. Therefore in this study the behavior of VIPs was monitored under various climates for measurement periods up to several years, allowing for a realistic assessment of the Sd-value of the foils and the degradation in time. Frequent gravimetric measurements were performed on 46 VIPs stored under ambient conditions and in climate chambers for periods up to 4 years. Based on EN ISO 12572 [1] the equivalent µd-values of the MF-2 foils were determined. Comparing measurement results to literature it is found that water vapor diffusion resistances µ are in the range of 2.66 – 7.03 . 10^7 for MF-2 type foils. Overall, it can be concluded that hygrothermal loading for extended periods has a limited effect on the stability of the foil in time, ensuring the applicability of VIPs in building components.
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机译:真空隔热板(VIP)结合了较高的热性能和较小的厚度,使其适合建筑翻新。但是,它们由低气压(接近真空)的气相二氧化硅芯由含铝的保护性覆盖层封装而成,容易刺穿,无意中会增加内部气压,从而使热性能变差。除了因穿孔而导致的故障外,尚不清楚在哪种潮湿情况下VIP会随时间下降,以及保护膜的Sd值和VIP的热性能如何影响VIP。因此,在这项研究中,在长达数年的测量期间内,在各种气候下对VIP的行为进行了监测,从而可以对箔的Sd值和时间退化进行实际评估。在环境条件下和在气候箱中存储的46个VIP上进行了频繁的重量测量,长达4年。根据EN ISO 12572 [1],确定MF-2箔的等效µd值。将测量结果与文献进行比较,发现水蒸气扩散阻力µ在2.66 – 7.03的范围内。 MF-2型箔纸为10 ^ 7。总的来说,可以得出结论,长时间的湿热负荷对箔的时间稳定性影响有限,从而确保VIP在建筑组件中的适用性。
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