Polyglass U.S.A. Inc., a leading manufacturer of roofing and waterproofing solutions, announces its support in celebrating NRCA’s National Roofing Week June 4th– 10th, 2023. Through National Roofing Week the NRCA promotes the value of the roofing industry by informing the public about the important role of roofing professionals and of roofs on homes and businesses in their community.
Throughout National Roofing Week Polyglass will be featuring posts on social media supporting the daily themes.
Sunday: Roofing Week Kick-off
Monday: Signature Project
Tuesday: Charitable Project
Wednesday: Employee Appreciation
Thursday: Employee Training
Polyglass will also be promoting their new and improved roofing contractor rewards and loyalty program, Club Premio. Roofing contractors can sign up to ‘Join the Club’ at club-premio.com. Once enrolled they can submit invoices of qualifying Polyglass products to earn points they can redeem for great rewards like golf trips, tech to support their business, and other high-end products.
You can follow along with Polyglass on Instagram, Facebook, and LinkedIn, @PolyglassUSA. Be sure to use the hashtag #NationalRoofingWeek and tag Polyglass to get a special shoutout and a chance to win a Polyglass lunch box and JBL speaker!
About Polyglass U.S.A., Inc.
Polyglass U.S.A., Inc. is a leading manufacturer of roofing and waterproofing systems. Known for its self-adhered modified bitumen roofing systems based on the company’s patented ADESO® Technology and CURE Technology®, Polyglass also produces a full line of premium roof coatings and roof maintenance systems. An ISO 9001:2015 certified company, Polyglass provides quality products and adds value through innovation. For more information about the premium products and services offered by Polyglass, call 800.222.9782 or visit polyglass.us.
As our needs as humans have evolved, the buildings and structures around us have become more complex, leading to the need for new or improved building materials. Better processes and advances in technology and chemistry have also resulted in expanded and enhanced products for the built environment.
This article discusses the sealants and liquid-applied coatings and systems available and their applications for waterproofing and sealing the building envelope.
Coating and Sealing Products for the Built Environment
Sealants are a critical component in the control of water, moisture, and air management for the modern built environment. At the same time, coatings or liquid-applied materials are necessary for waterproofing below-grade areas and the roof. When specifically discussing liquid-applied coatings and sealants, we generally think of the following applications and product types:
Metal roof restorations –liquid-applied reinforced systems (acrylic, silicone)
Metal roof restorations – liquid-applied protective-only coatings (acrylic, silicone, aluminum)
Air and water-resistive barriers – liquid-applied (acrylic, STPE, silicone)
Sealants can be used as a secondary barrier to a primary system or as the primary barrier. Examples include sealing metal counterflashing with the roof flashings, which is the primary barrier, or when glazing, fenestration openings, and expansion joints are used as the primary.
A wide variety of sealant chemistry has emerged to be more application specific. While there are still many general-applications sealants available, such as urethane or silicone chemistries, that work reasonably well, several products within these and other chemistries have been specially designed for better performance in more specific applications. In this case, improved performance can be as simple as a better bond to a surface material type.
In previous decades,liquid-applied materials for the built environment were limited and conventional for underground areas and roofs. There were roof coatings such as acrylics and fibered and non-fibered emulsions, and aluminum for the exterior. Acrylic-latex paints were primarily used for the exterior walls and urethanes for the occasional horizontal deck, such as parking garages. Sealants were mainly used at wall joints, flashing and counterflashing, window interfacing, and sometimes, where expansion control was needed.
In a more modern built environment, many things determine the products and designs used – for example, building codes.
Building Codes Challenges
As far as building codes are concerned, change is the only real constant. With codes continuously under review, adoption, and implementation, contractors (and designers) are faced with the evolutionary task of staying aware of changes implemented by the authority having jurisdiction (AHJ). These changes sometimes occur without much notice or public awareness (Pro tip: FRSA members can stay ahead of the curve through the FRSA’s involvement in the code development process).
In addition, building departments and inspectors can have varying interpretations of the same code language. This is even more complicated in Florida, where variations of the code exist, as is the case for the High Velocity Hurricane Zone (HVHZ) versus the Non-High Velocity Hurricane Zone (non-HVHZ), each with unique requirements that rarely overlap. Regional jurisdictions wanting to implement their own standards for their county or city further add to the confusion.
Product Applications for the Built Environment
While building structures are traditionally perceived to include a foundation, vertical walls, and a roof – collectively known as the building envelope – building designs, their uses, and interaction with their surroundings have continued to evolve and become increasingly complex. Non-conventional building spaces, for example, now include balconies used as meeting spaces, vegetative areas, or places to retain and recycle water. With this evolution of the building has come the need to rethink how traditional products are used and how new products are implemented.
Below-Grade Materials and Systems
When considering the base of a traditional building, we think of foundations and under-slab conditions. In the urban environment, where underground parking is popular, sealants, sheets, and liquid-applied membranes are the most common products for these and similar designs.
Urethanes (hydrostatic and non-hydrostatic conditions)
Asphaltic emulsions (dampproofing only)
Horizontal Building Locations
Though the roof areas using liquid-applied products and sealants are primarily horizontal in design, many horizontal areas of the building that require air, water, and moisture control are not actual roof areas. Balconies, plaza decks, recreation decks, and other similar designs are increasingly common in modern structures, renovations, or those with occupancy changes. Liquid-applied products and sealants can be an optimal solution for such applications.
Types of products range depending on many project specifics, be it the location, substrate, or performance needs. Not all liquid-applied materials and sealants are created equal, and the more you research, you may find many products are best suited for specific conditions and not as a one-size-fits-all approach.
Top Considerations for Horizontal Applications
When dealing with horizontal applications that are non-roofing specific, an important consideration is its use.
Will the product be exposed or non-exposed?
If exposed, what kind of frequency of traffic is expected?
If not exposed, how accessible does it need to be, and what is the overburden?
These can be critical factors in a product and system choice for many applications.
Some applications may require just a liquid-applied material and reinforcement. Still, others may also require sealants or expansion control which could mean the difference between a successful application and a problematic one with call-backs.
Another important concern is where sealants interface with other materials. Ensure there are no compatibility issues because not all materials react well when they come in direct contact. Some surfaces can leach when in direct contact with sealants and stain the surface or even result in a reversion of the material after the initial set or cure.
When using liquid-applied systems on horizontal or even vertical surfaces, you need to ensure the products and system are suitable because the performance of some materials can be limited. Is the installed material subject to hydrostatic conditions? If so, many water-based materials do not hold up well under such conditions.
Liquid-applied materials and systems typically considered for these applications include:
Liquid-applied products and systems can offer various uses in both low and steep-slope roof designs. Sometimes they are used as an accessory to other materials and can often be used as a stand-alone primary roofing or flashing system with proper preparation and installation.
Liquid-applied systems can offer very functional and lighter-weight options when needed. This can be especially advantageous for structures with weight load concerns. In addition, options for roof recovery are more traditional materials when other systems may not be viable alternatives.
Liquid-Applied Products for Metal Roof Restorations
Liquid-applied products and systems are ideal for metal roof restorations. Replacing a metal roof can be costly and time-consuming as they are often found to have isolated or nagging water intrusion issues.
Liquid-applied systems can offer a convenient, cost-effective means to recover or remediate a problematic metal roof panel or similar metal panel system. Using the in-place materials as a substrate, liquid-applied systems can repair isolated leaks or offer a complete restoration system to some or all of a metal roof while adding minimal weight to the existing structure.
Liquid-applied materials and systems typically considered for these applications (reinforced and non-reinforced depending on intended function) include:
Acrylics (ASTM D 6083)
Silicones (ASTM D 6694)
Asphaltic emulsions (ASTM D 1227)
It is essential to ensure that the product or system is suitable for all known project conditions. Research products and systems thoroughly before a final decision. Be sure of the conditions: is the intent to be weatherproofing (i.e., hydrostatic) or waterproofing (i.e., non-hydrostatic)? This is critical to consider because each requires different levels of performance.
Always refer to the primary material’s published information when considering a product and, when in doubt, contact the manufacturer to ensure the intended product and system will perform as desired. Contractors should not be expected to be subject matter experts on everything they use, so reach out to available sources; the manufacturer should be able to answer contractor design, use, and installation questions.
Polyglass Liquid-Applied Coatings for the Built Environment
Polyglass’ line of premium elastomeric roof coatings is designed to address a wide range of roofing applications and challenges, including the repair and restoration of multi-layer APP and SBS roofing systems, single-ply systems, and metal roofs. Made from acrylic or silicone, our liquid-applied roofing layers cure to form a seamless membrane when applied over the entire roof area.
A quality silicone roof coating was needed to restore the integrity of an aging Sarnafil PVC roof in Pomona, LA County. The roof was primed with PolyBrite single-ply primer and then sprayed in one pass with PolyBrite 90.1.
PolyBrite 73 is a premium-grade white elastomeric mastic that cures to form a seamless flexible, waterproof membrane that will expand and contract with the movement of the roof surface. PolyBrite 73 offers excellent adhesion, flexibility, high tensile strength, and resistance to ultraviolet degradation.
Product Application: Big Creek Hydroelectric Powerhouse
PolyBrite 780 was selected for better bonding of the spray polyurethane foam (SPF), with a second layer applied to add adhesion to the foam and prep the surface for the polyurea layer and waterproof roof coatings to follow. PG 700-QS helped to seal the temperature- and moisture-sensitive SPF foam against the constant moisture emitted by the powerhouse itself.
Product Application: Mediterranean Gyros Products (MGP), Inc.
PolyBrite 70 and PG 800 were used for a 1,200-square-foot roof installation project for MGP, a leading specialty food importer in Astoria, New York. The project was completed in under two weeks without impacting daily business operations.
PG 500 is a modified cement using a high-quality formulation suitable for a cold-applied bonding agent for SBS (elastomeric) roofing systems and other membrane systems. Its “trowel-grade” consistency makes it ideal for flashing details, attachment of membranes to steep slopes and parapet walls, and a variety of waterproofing repairs.