In May 2012, a fire at the 18-story Mermoz Tower in Roubaix, France, led to one death and six injuries. In November 2014, a similar fire saw about 300 people evacuated from the 23-story Lacrosse apartment building in Melbourne, Australia, leading to $5 million in damages. Almost two years ago, on New Year’s Eve of 2015, the Address Downtown Dubai Luxury Hotel was set ablaze by an electrical fire. Although there were no deaths reported, a Reuters article would later bear the title: “Dubai blaze raises questions over Gulf skyscraper design.” But most recently, on June 14, 2017, a fourth-floor apartment in London, England’s Grenfell Tower caught fire. Within 15 minutes, the inferno had reached the top of the 24-story building, ultimately claiming the lives of at least 80 residents. Despite the fundamental differences between these occurrences—their location, cause and variances in local building regulations—they are tied together by a common thread: cladding.
The Combustibility of the Building Envelope
Components of the building envelope—the wallboard, insulation and framing, sheathing, water-resistive barrier and air barrier (WBR-AB), air gap and cladding—all work together to produce a physical separator between the conditioned and unconditioned environments of a building. In the case of this year’s London fire, the type of cladding used is believed to have contributed to the swiftness of the blaze. Flames shot out of an apartment window, ignited the insulated cladding and raced up 20 floors to the top in minutes. The cladding, experts say, was essentially a combustible polyethylene, or plastic, core sandwiched between two layers of thin aluminum. The 2-inch gap between the cladding and the building allowed air flow to spread the fire up the exterior wall. Similar combustible cladding was installed on Mermoz Tower, the Lacrosse apartment complex and the Address Downtown Dubai. “This was not a proud moment for those of us who design, construct, operate, maintain and rehabilitate buildings,” wrote Joseph W. Lstiburek, Ph.D. His post-mortem of the Grenfell Tower fire appeared in the ASHRAE (American Society of Heating, Refrigeration and Air Conditioning Engineers) Journal. “We had warnings.”
Building With Fire-Resistant Materials
In the case of the Grenfell Tower fire, the combustible cladding is believed to have been the culprit. Corners were cut and tragedy resulted. But when each stage of the building process is geared toward “fire safe” construction, such as using materials rated for withstanding fire according to existing regulations—safety is maximized. Making an exterior wall fire-resistant really begins with the sheathing. A “Type X” gypsum sheathing panel, for example, will resist fire by slowly releasing chemically combined water within its core—approximately 21 percent of its weight. These panels are designed to meet the fire performance requirements prescribed in the ASTM C1396 (CAN/CSA-A82.27) Standard Specification for Gypsum Board. It won’t extinguish a fire, but it’s fire resistance may buy time. One layer of 5/8” “Type X” gypsum board on each side of a wall can have a fire resistance rating of up to one hour. A Type X gypsum sheathing panel that is transforming the building envelope is Georgia-Pacific’s DensElement™ sheathing. No building wrap, fluid-applied membrane or peel-and-stick membrane is required. Installers only need to seal the seams, fasteners, penetrations and corners with PROSOCO R-Guard FastFlash® liquid flashing. The result is a faster, safer, more efficient process. The science behind the DensElement™ Barrier System is the AquaKOR™ Technology, which combines two components of the building envelope into one—integrating the WRB-AB with the gypsum core, beneath the fiberglass mat. This rigorously tested, integrated construction is such a unique innovation that MasterSpec created a specification for it: 061656 Air and Water Resistive Sheathing Board. Adoption is growing, with well over 200 hundred projects using it. Learn more at www.denselement.com/map to see DensElement™ projects across the country. Building products manufacturers continue to innovate to capture scientific, safety and materials advancements. While we are all conscious of safety needs on the job, more attention must be paid to the safety of a buildings occupants once we’ve all left the job. This is one lesson from London that cannot be overlooked. Complacency in design, production or installation, as seen in the example of the Grenfell Tower fire, causes problems. Innovation, modernization, efficiency and quality, however, will solve problems. One day, it may even save lives.