Abstract
This paper provides a critical review of the degradation, durability and service life prediction (SLP) of polymeric building envelope materials (BEMs), namely, claddings, air/vapour barriers, insulations, sealants, gaskets and fenestration. The rate of material deterioration and properties determine the usefulness of a product; therefore, knowledge of the significant degradation mechanisms in play for BEMs is key to the design of proper SLP methods. SLP seeks to estimate the life expectancy of a material/component exposed to in-service conditions. This topic is especially important with respect to the potential impacts of climate change. The surrounding environment of a building dictates the degradation mechanisms in play, and as climate change progresses, material aging conditions become more unpredictable. This can result in unexpected changes and/or damages to BEMs, and shorter than expected SL. The development of more comprehensive SLP methods is economically and environmentally sound, and it will provide more confidence, comfort and safety to all building users. The goal of this paper is to review the existing literature in order to identify the knowledge gaps and provide suggestions to address these gaps in light of the rapidly evolving climate.
Highlights
The building envelope is an essential component of any building
This paper provides a brief review of degradation mechanisms in polymeric materials, before a more focused overview of aging and durability of polymers in building envelope materials (BEMs), with emphasis on the function and significance of degradation factors for cladding, air/vapour barriers, insulation, sealants, fenestration polymers and gaskets
The results indicated a clear formation of carboxylic groups, the only significant statistical change occurred in the sample without any compatibilizer and the sample with maleic grafted agents that lends to the possibility that the compatibilizer does not have a strong influence on UV degradation
Summary
The building envelope is an essential component of any building. It contains both the structural and non-structural components designed to protect the building occupants from the vagaries of weather. The building envelope is a multi-layered passive element of construction, which, if designed properly, can improve the comfort of the residents and can have a significant effect on the energy efficiency of the building [1,2,3]. The building envelope should protect the building and its contents from climatic loads, maintain good performance and allow for proper ventilation [4]. The design of the building envelope is unique to the surrounding environment as the geographic location, weather patterns and severity of seasons will affect the performance requirements of the components and the degradation of the building envelope materials (BEMs) [1].
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