SpecTopics: Mechanically Attached vs. Fully Adhered Roof Systems

When selecting a roof system, architects and specifiers are often faced with the choice between specifying a mechanically attached or an adhered roof. This is an important decision that can affect the project's cost, timeline, roof performance, and overall installation process.

Mechanically fastened systems, where the membrane is attached using fasteners and plates or battens in the seams, have historically been popular with when using reinforced EPDM or thermoplastic membranes such as TPO and PVC. Non-reinforced EPDM membranes have typically been fully adhered with solvent- or water-based contact adhesives. With the advent of new adhesives and installation technology, the share of adhered TPO and PVC roofs is also growing.

Mechanically attached systems are often viewed as being cost-effective and having fewer installation temperature restrictions. This is often true. However, it is also important to consider the benefits that a fully adhered system can bring, especially when faced with the option to "value engineer" an adhered spec to a mechanically attached installation.

ADHERED SYSTEM BENEFITS

Performance: In a fully adhered roof system, the adhesive evenly distributes the uplift pressure on the roof membrane and substrate, rather than focusing it on fastening points in the seams. This is why fully adhered systems typically have superior wind uplift results and code approvals vs. mechanically attached systems and provide the best long-term performance.

Seams: Adhering membrane allows the installer to use the widest possible sheets, which reduces the number of splices in the roof. In mechanically fastened systems, sheet width is dictated by fastener spacing, and narrow-width sheets are usually required around the perimeter of the building to resist wind uplift. This results in more membrane seams and more fastening points throughout the roof deck.

Aesthetics and Sheet Flutter: Fully adhered systems provide a "tight-looking" roof because the membrane is fully bonded to the substrate beneath it. In mechanically attached systems, the membrane is only fastened in seam areas, allowing the rest of the sheet to flutter in the wind. This can give the roof a loose appearance and create noise below the deck on very windy days.

It is also worth noting that several innovations have reduced some of the limiting factors of installing a fully adhered roof.

ADHERED SYSTEM IMPROVEMENTS

Temperature Restrictions: In the past, many bonding adhesives had temperature restrictions that would not allow adhered roof installations below 40°F (4°C) and rising. New adhesives such as CAV-GRIP® III and CAV-GRIP PVC have made it possible to install fully adhered roofs in temperatures as low as 25°F (-4°C). In addition, exclusive RapidLock™ technology uses a hook and loop fastening system that eliminates temperature restrictions.

Odors and VOC Restrictions: Fumes and odors from adhesives can be a challenge when roofing occupied buildings; however, CAV-GRIP III and CAV-GRIP PVC are  low-odor compared to traditional solvent-based bonding adhesives. While mechanically attached systems virtually eliminate the need for adhesives and the smells they produce, Self-Adhered Technology (SAT™), RapidLock, and VacuSeal systems can provide the performance of a fully adhered system while virtually eliminating the need for adhesives.

For further information on various membranes and systems, consult the Carlisle Systems Brochure.

Contact Craig Tyler with questions.