AireBarrier brings new air sealing technology to the concept of dealing with air leakage in bricks. For this retrofit project, William Collins was told that the project needed not only an air barrier for interior walls, but also a sealant that would bond the wall to the new framework. For this particular project, it was estimated that because AireBarrier Black Spray Sealant had adhesion of at least 500+ that it would create the continuity on the wall that the project required. This would bring an end to the air leakage which existed through the wall which was causing tremendous damage to the interior walls.
Brick walls are sturdy structures that are not only
functional in weight support, but ruggedly aesthetic. Brick walls can be
found inside a residential dwelling, separating two rooms or as an
exterior facade. However, brick is porous and is not easily sealed.
Moisture can easily seep into a building through a brick. To prevent
which can lead to mold and mildew growth, you'll have find a way to seal
air in order to stop the air transfer which is what Sealant Technologies, Inc was able to accomplish on this project.
This was an unusual project in the sense that due to poor
construction in 2004, these stairwells were built without any support
from the framework and were for the most part, free flowing. Because
AireBarrier uses high density polyurethane, the adhesion capabilities
allowed Sealant Technologies to cover the entire wall, no matter what the
substrate was and to provide a continuous and seemless seal. The Spray Pod 1.0 had the portability to get to the stairwells which had extremely difficult access due to the location of the building.
Air barriers are systems of materials designed and constructed to control airflow between a conditioned space and an unconditioned space. The air barrier system is the primary air enclosure boundary that separates indoor (conditioned) air and outdoor (unconditioned) air. In multi-unit/townhouse/apartment construction the air barrier system also separates the conditioned air from any given unit and adjacent units. Air barrier systems also typically define the location of the pressure boundary of the building enclosure.
Air barriers are intended to resist the air pressure differences that act on them. Rigid materials such as gypsum board, exterior sheathing materials like plywood or OSB, and supported flexible barriers are typically effective air barrier systems if joints and seams are sealed. Spray foam systems can also act as effective air barrier systems either externally applied over structural elements or internally applied within cavity systems.
Air barrier systems keep outside air out of the building enclosure or inside air out of the building enclosure depending on climate or configuration. Sometimes, air barrier systems do both. Air barrier systems can be located anywhere in the building enclosure – at the exterior surface, the interior surface, or at any location in between. In cold climates, interior air barrier systems control the exfiltration of interior, often moisture-laden air. Whereas exterior air barrier systems control the infiltration of exterior air and prevent wind-washing through cavity insulation systems.
The significant advantage of exterior air barrier systems is the ease of installation and the lack of detailing issues related to intersecting partition walls and service penetrations. An additional advantage of exterior air barrier systems is the control of wind-washing that an exterior air seal provides with insulted cavity frame assemblies.
The significant disadvantage of exterior air barrier systems is their inability to control the entry of air-transported moisture into insulated cavities from the interior. As a result most exterior air barrier systems are insulated on their exterior side with rigid or semi-rigid insulations that are not sensitive to wind-washing.