David Vermeulen, the Midwest territory manager for Technical Glass Products, spends a lot of time talking with Building Teams about impact glazing and fire-rated glass. “There’s still a little confusion about the products—on the types of glass available, how they’ve changed over the years, and how they can be used,” he says. “People are surprised by what they can do with fire-rated glass.”
Here Vermeulen shares some back-to-basics answers to seven common questions about impact glazing and fire-rated glass.
1. How does fire-rated glass differ from ordinary glass?
Fire-rated glass has been tested to act as a barrier to the spread of flames and smoke, a practice known as compartmentalization. The framing and glass undergo independent testing from such organizations as Underwriters Laboratories, where a fire is ignited and the temperature (which can be as high as 1,000ºF after only five minutes) is measured on the surface of the glass. Ratings are given based on the length of time the glass remains intact. The test concludes by blasting the heated glass with water from a two-man fire hose to determine the system’s ability to withstand impact pressure and its resistance to thermal water shock. Fire-rated glass ratings range from 20 minutes up to three hours, depending on the product and framing system.
2. When using glass in fire-rated locations, is impact safety glass also required?
No. Building codes determine where impact safety glass is required. “Generally speaking, any glass 18 inches off the floor or 36 inches from a door—and any door glass itself—has to be safety glass,” says Vermeulen. However, a transom over a door would not require the use of impact-rated glass, so a fire-rated glass that is not impact rated could be used and is a less expensive option than glazing offering both impact- and fire resistance.
3. What types of impact glazing are available?
There are two types: Category I and Category II.
Category I represents 150 foot-pounds of impact, which simulates a small child (approximately 85 lb) running into the glass. Glass meeting this test is limited to a maximum size of nine sf per lite.
Category II represents 400 foot-pounds, which simulates an adult running into the glass, and is the highest level of required impact-rated glass. With few exceptions, all tempered or laminated glass in use falls into this category, and any opening over nine sf has to meet category II standards.
4. What types of fire-rated glass are available?
Two types: thin and thick.
Thin glass is approximately 1/4- to 5/16- inch thick and fits into standard fire-rated steel frames. Thin glass is now available in larger sizes than previously offered—allowing greater design flexibility and larger openings for increased daylighting transfer—with fire ratings from 20 to 90 minutes. Thin products are classified as “opening protective” and block smoke and flames, but are not heat barriers. Thin products are available with or without impact ratings.
Thick glass products, commonly called glass walls because they allow virtually unlimited expanses of glass and are typically used in areas where glazing exceeds 25% of the wall area, measure ¾ inch or more in thickness and are tested to the same standards as solid barrier walls. Fire ratings for thick glass range from 45 minutes up to two hours, and the products block smoke and flames as well as heat.
5. Does fire-rated glass limit design possibilities?
No. “Design possibilities have reached new heights, and that’s triggering a change in the way projects are being built,” says Vermeulen. Advances in glass technology and framing materials address limitations on window sizes and allow windows to meet the same code requirements as a firewall. Vermeulen says designers are now able to use fire-rated glass instead of traditional wall construction to bring more natural daylight into the interior. “We even have fire-rated glass floors now,” he says. New labeling that makes it easier for code officials to determine whether or not the proper glass is used in the space will be part of the International Building Code for 2012.
6. Are fire-rated products more expensive?
Fire-rated glass is more expensive than traditional glass, and typically accounts for 2% of a building’s total budget, according to Vermeulen.
7. Is fire-rated glass traditionally an interior product?
Yes, but that’s changing somewhat. “Insulating fire-rated glass for exterior use is a new thing,” says Vermeulen. In general, fire-rated glass is used on a building’s exterior in cases where adjacent buildings are very close to the property line, to keep fire from leaping from one building to the next. BD+C
David Vermeulen has nearly a decade of fire-rated glazing experience, and has successfully worked with code officials, architects, and designers from schematic product development through installation.
Related Stories
Lighting | Mar 4, 2024
Illuminating your path to energy efficiency
Design Collaborative's Kelsey Rowe, PE, CLD, shares some tools, resources, and next steps to guide you through the process of lighting design.
MFPRO+ News | Mar 1, 2024
Housing affordability, speed of construction are top of mind for multifamily architecture and construction firms
The 2023 Multifamily Giants get creative to solve the affordability crisis, while helping their developer clients build faster and more economically.
Multifamily Housing | Feb 29, 2024
Manny Gonzalez, FAIA, inducted into Best in American Living Awards Hall of Fame
Manny Gonzalez, FAIA, has been inducted into the BALA Hall of Fame.
K-12 Schools | Feb 29, 2024
Average age of U.S. school buildings is just under 50 years
The average age of a main instructional school building in the United States is 49 years, according to a survey by the National Center for Education Statistics (NCES). About 38% of schools were built before 1970. Roughly half of the schools surveyed have undergone a major building renovation or addition.
MFPRO+ Research | Feb 28, 2024
New download: BD+C's 2023 Multifamily Amenities report
New research from Building Design+Construction and Multifamily Pro+ highlights the 127 top amenities that developers, property owners, architects, contractors, and builders are providing in today’s apartment, condominium, student housing, and senior living communities.
AEC Tech | Feb 28, 2024
How to harness LIDAR and BIM technology for precise building data, equipment needs
By following the Scan to Point Cloud + Point Cloud to BIM process, organizations can leverage the power of LIDAR and BIM technology at the same time. This optimizes the documentation of existing building conditions, functions, and equipment needs as a current condition and as a starting point for future physical plant expansion projects.
Data Centers | Feb 28, 2024
What’s next for data center design in 2024
Nuclear power, direct-to-chip liquid cooling, and data centers as learning destinations are among the emerging design trends in the data center sector, according to Scott Hays, Sector Leader, Sustainable Design, with HED.
Windows and Doors | Feb 28, 2024
DOE launches $2 million prize to advance cost-effective, energy-efficient commercial windows
The U.S. Department of Energy launched the American-Made Building Envelope Innovation Prize—Secondary Glazing Systems. The program will offer up to $2 million to encourage production of high-performance, cost-effective commercial windows.
AEC Innovators | Feb 28, 2024
How Suffolk Construction identifies ConTech and PropTech startups for investment, adoption
Contractor giant Suffolk Construction has invested in 27 ConTech and PropTech companies since 2019 through its Suffolk Technologies venture capital firm. Parker Mundt, Suffolk Technologies’ Vice President–Platforms, recently spoke with Building Design+Construction about his company’s investment strategy.
Performing Arts Centers | Feb 27, 2024
Frank Gehry-designed expansion of the Colburn School performing arts center set to break ground
In April, the Colburn School, an institute for music and dance education and performance, will break ground on a 100,000-sf expansion designed by architect Frank Gehry. Located in downtown Los Angeles, the performing arts center will join the neighboring Walt Disney Concert Hall and The Grand by Gehry, forming the largest concentration of Gehry-designed buildings in the world.