Wired glass was the only fire rated glass (FRG) product available for over 100 years. In traditional wired glass, the embedded wires hold annealed glass in place during the fire test to achieve a fire rating. While the wires give the illusion of increased strength and impact resistance, the opposite is true. Wired glass is not safety glazing. The wires actually weaken the glass, making it half as strong as ordinary window glass. Wired glass breaks easily on human impact, exposing razor sharp wires that can trap a victim’s limb in the opening and increase the severity of the injury. Alarmingly, wired glass is the most commonly used FRG product found in educational facilities, leading to over 2,500 wired glass impact injuries in schools every year. In 1977, the Consumer Product Safety Commission (CPSC) enacted a federal safety glazing standard (16 CFR 1201) to protect people from injury due to accidental impact with glazing. The building codes apply the CPSC standard to require that glazing used in hazardous locations, such as doors and sidelites, must meet minimum Category I and II impact standards, depending on the size of the glazing panel. Smaller glazing panels in sizes up to 1296 square inches must meet the Category I impact test of 150 ft. lbs. Larger glazing panels must meet the higher Category II standard impact test of 400 ft. lbs. of impact resistance. At the time the federal standard was enacted, wired glass manufacturers alleged they lacked the technology make a fire rated product that could meet the new CPSC standards. Since wired glass was the only FRG product available in 1977, the IBC granted wired glass a temporary exemption from meeting the CPSC standard. This exemption allowed wired glass used in fire assemblies to meet a lower ANSI Z97.1 impact standard of 100 ft. lbs., which the CPSC acknowledged was inadequate to protect anyone except children under five. For more information, click on the link below.
Related Stories
| Nov 16, 2010
NFRC approves technical procedures for attachment product ratings
The NFRC Board of Directors has approved technical procedures for the development of U-factor, solar heat gain coefficient (SHGC), and visible transmittance (VT) ratings for co-planar interior and exterior attachment products. The new procedures, approved by unanimous voice vote last week at NFRC’s Fall Membership Meeting in San Francisco, will add co-planar attachments such as blinds and shades to the group’s existing portfolio of windows, doors, skylights, curtain walls, and window film.
| Nov 11, 2010
Saint-Gobain to make $80 million investment in SAGE Electrochromics
Saint-Gobain, one of the world’s largest glass and construction material manufacturers, is making a strategic equity investment in SAGE Electrochromics to make electronically tintable “dynamic glass” an affordable, mass-market product, ushering in a new era of energy-saving buildings.
| Nov 11, 2010
Saint-Gobain to make $80 million investment in SAGE Electrochromics
Saint-Gobain, one of the world’s largest glass and construction material manufacturers, is making a strategic equity investment in SAGE Electrochromics to make electronically tintable “dynamic glass” an affordable, mass-market product, ushering in a new era of energy-saving buildings.
| Nov 3, 2010
First of three green labs opens at Iowa State University
Designed by ZGF Architects, in association with OPN Architects, the Biorenewable Research Laboratory on the Ames campus of Iowa State University is the first of three projects completed as part of the school’s Biorenewables Complex. The 71,800-sf LEED Gold project is one of three wings that will make up the 210,000-sf complex.
| Nov 3, 2010
Public works complex gets eco-friendly addition
The renovation and expansion of the public works operations facility in Wilmette, Ill., including a 5,000-sf addition that houses administrative and engineering offices, locker rooms, and a lunch room/meeting room, is seeking LEED Gold certification.
| Nov 3, 2010
Sailing center sets course for energy efficiency, sustainability
The Milwaukee (Wis.) Community Sailing Center’s new facility on Lake Michigan counts a geothermal heating and cooling system among its sustainable features. The facility was designed for the nonprofit instructional sailing organization with energy efficiency and low operating costs in mind.
| Nov 3, 2010
Rotating atriums give Riyadh’s first Hilton an unusual twist
Goettsch Partners, in collaboration with Omrania & Associates (architect of record) and David Wrenn Interiors (interior designer), is serving as design architect for the five-star, 900-key Hilton Riyadh.
| Nov 3, 2010
Virginia biofuel research center moving along
The Sustainable Energy Technology Center has broken ground in October on the Danville, Va., campus of the Institute for Advanced Learning and Research. The 25,000-sf facility will be used to develop enhanced bio-based fuels, and will house research laboratories, support labs, graduate student research space, and faculty offices. Rainwater harvesting, a vegetated roof, low-VOC and recycled materials, photovoltaic panels, high-efficiency plumbing fixtures and water-saving systems, and LED light fixtures will be deployed. Dewberry served as lead architect, with Lord Aeck & Sargent serving as laboratory designer and sustainability consultant. Perigon Engineering consulted on high-bay process labs. New Atlantic Contracting is building the facility.
| Nov 2, 2010
Cypress Siding Helps Nature Center Look its Part
The Trinity River Audubon Center, which sits within a 6,000-acre forest just outside Dallas, utilizes sustainable materials that help the $12.5 million nature center fit its wooded setting and put it on a path to earning LEED Gold.
| Oct 13, 2010
Prefab Trailblazer
The $137 million, 12-story, 500,000-sf Miami Valley Hospital cardiac center, Dayton, Ohio, is the first major hospital project in the U.S. to have made extensive use of prefabricated components in its design and construction.
