Robert Jutras (UL/CLEB) hosted a seminar on the differences between how Canada and the U.S. evaluate field performance of windows and curtain walls in large buildings during the American Architectural Manufacturers Association (AAMA) 82nd Annual Conference in Palm Springs, Calif. Jutras, who is Canadian, focused more on the Canadian codes and practices for the benefit of a mostly American audience at the conference.
Jutras’s presentation compared building codes, including the 2018 International Builders Code (IBC) and the 2015 National Building Code of Canada (NBC), and discussed field performance evaluation in the U.S. versus evaluation in Canada, with a focus on what differences meant for air leakage and resistance to water penetration. He also compared the two countries’ takes on differential pressure versus wind speed.
In the U.S., Jutras pointed out, codes are divided by usage, either commercial (IBC) or residential (International Residential Code). In Canada, alternately, codes are not divided by usage, like commercial and residential, nor are they divided by occupancy. Instead, they are divided by size.
“Parts three, four and five of the code covers all types of occupancy, including medium to high-rise residential,” says Jutras.
Building requirements for large buildings are found in NBC Part 5, Environmental Separation, which covers heat transfer, air leakage, protection from precipitation, vapor diffusion, windows, doors and skylights and other fenestration assemblies. NBC Part 5 requires that windows, doors and skylights conform to the requirements of “AAMA/WDMA/CSA 101/I.S.2/A440, NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights” (NAFS) and CSA A440S1, “Canadian Supplement to AAMA/WDMA/CSA 101/I.S.2/A440, NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights.” There are no installation requirements in Part 5 of the NBC, other than the air barrier continuity requirement around penetrations through the building assembly.
AAMA standards, which can be used to evaluate the performance characteristics of other fenestration assemblies, include several in the AAMA 501 series of documents.
Jutras spoke about air leakage saying that, in Canada, the applicable laboratory test method for determining the rate of this is ASTM E283, “Determining Rate of Air Leakage Through Exterior Windows, Curtain Walls, and Doors Under Specified Pressure Differences Across the Specimen.” If field testing for air leakage is to be conducted, the applicable test method is ASTM E783, “Field Measurement of Air Leakage Through Installed Exterior Windows and Doors.”
In regard to water penetration, Jutras’s presentation showed examples of six cities on each side of the U.S. and Canadian border, close enough to support the hypothesis that climatic conditions should be comparable. Results showed that, on average, there are two times more pressure for resistance in Canadian cities than in U.S. cities.
Jutras noted that, when evaluating the relationship between differential pressure and wind speed, it is important to account for the building’s total elevation, given that the available wind speed data is usually measured near ground level.