Flooring in commercial and residential buildings can have a variety of problems, from moldy carpets to debonded vinyl tiles to movement in wood flooring. Understanding the causes and solutions of these problems involves understanding the building as a system. What happens beneath and above a floor matters, in ways that aren’t always anticipated or well understood.
The articles in this section examine a range of building practices and materials – and the interactions between them – that can lead to flooring problems and solutions.
An edited version of this Insight first appeared in the ASHRAE Journal.
Think of the good old days—the Civil War, WWI, the Great Depression, WWII—crawlspaces were uninsulated. They were ventilated and they didn’t have ground covers—and they didn’t have problems. Why?
This pamphlet is designed for members of the residential construction and remodeling industries, as well as owners and managers who work in affordable housing. It presents building guidance for both new construction and rehabilitation, as well as practices that can be used by property maintenance personnel.
The following reports are excerpts from the 2009 Building Science Corporation Industry Team Building America Annual Report. These summaries are for the following advanced system research projects: high R-value enclosures, ventilation effectiveness advanced system research, and dehumidification performance advanced system research.
There is a large existing stock of uninsulated mass masonry buildings: their uninsulated walls result in poor energy performance, which is commonly addressed with the retrofit of interior insulation. Some durability issues associated with interior insulation have been or are being addressed, such as interstitial condensation and freeze-thaw damage issues. However, another durability risk is the hygrothermal behavior of moisture-sensitive wood beams embedded in the load-bearing masonry. Interior insulation reduces the beam end temperatures, reduces available drying potential, and results in higher relative humidity conditions in the beam pocket: all of these factors pose a greater risk to durability.
