Degradation of VIP barrier envelopes exposed to alkaline solution at different temperatures

Abstract

As covering layers, barrier envelopes of VIPs are always exposed to severe environmental conditions, including high temperatures, alkaline environments and local stress concentration when used as thermal insulation material in concrete structures. This study investigated the time-dependent degradations of three types of commonly used envelopes (aluminium film, metallized film and metallized film coated with alkali-resistant (AR) fibreglass mesh) and VIPs covered by these three envelopes by simulating environmental conditions with four types of alkaline solutions (NaOH solution with pH=7, 11, 13 and saturated Ca(OH)2), two different temperatures (20°C and 60°C) and local stress concentration. The results showed that stress and high temperature accelerated the degradation of envelopes and that such degradation became more serious with increased pH value and temperature. It was also observed that the thermal conductivity of VIPs increases quickly when they are exposed to higher alkalinity combined with high temperatures. After 6-week submerged in saturated Ca(OH)2 solution at 60°C, the thermal conductivity of VIPs increased from 4.413mW/mK to 13.049mW/mK for aluminium foil, from 5.375mW/mK to 10.982mW/mK for metallized film, and from 5.786mW/mK to 8.110mW/mK for AR fibreglass mesh-reinforced film, respectively.