Abstract
Spray polyurethane foam (SPF) roofs are widely used in North America. Much fewer usage examples and experience can be found in Northern European cold climatic conditions. This study analyses hygrothermal performance and the reasons for the roof’s degradation and end of service life of an SPF and polyurea roof. The service life of the roof is over and major reconstruction is needed eight year after construction. The current study uses field measurements included onsite temperature and humidity measurements and extensive surveying, the roof was opened from several locations and test samples were taken for laboratory tests. The influence of UV radiation on the loss of adhesion was tested. Solar radiation quickly degraded the top surface of the in-situ sprayed polyurethane foam insulation causing a weak connection between the foam layers. Due to mechanically damaged and UV degraded polyurea roofing, water has leaked into the SPF. The water inside or below the foam evaporated during sunny days and broke the adhesion of different foam layers. Larger foam blisters were observed on the upper part of the insulation caused by high water vapour pressure. This is considered the most realistic cause of separation of the SPF layers. The analyse of hygrothermal performance, service life, and durability prediction should be included into the design process, especially for structures with small or without long term performance experience.
Highlights
The purpose of the roof is to protect the building from weather Defects in roof affects the service life of the building
The sprayed polyurethane foam insulation (SPF) upper layer has become detached from rest of the insulation
The service life of the in-situ sprayed polyurethane foam insulation system roof was less than eight years
Summary
The purpose of the roof is to protect the building from weather Defects in roof affects the service life of the building. Air ventilation below the waterproofing is a typical solution in cold climate to improve the hygrothermal performance of roof structures [1,2,3]. A curved roof is more difficult to design and construct than a flat roof. The installation of thermal insulation and waterproofing material is more complicated. ‘In situ’ sprayed polyurethane foam insulation (SPF) has been used for roofing applications from the middle of 1970’s [4,5] and can would be suitable for curved roof applications. Sprayed Polyurethane Roofing System (SPRS) consists of a seamless sprayed-in-place SPF insulation covered with an elastomeric coating (EC). SPRS is widely used in America but has limited installation and performance experience in Northern European cold climate conditions
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