Silicone Coating Restores the Roof, Reduces Utility Costs at Mixed-Use Complex

At the Shoppes of Johnson’s Landing in Angier, North Carolina, ACC applied a high-solids silicone roof coating on the 20-year-old metal roof to seal penetrations, restore the roof, and provide a white reflective coating. Photos: All-County Contracting (ACC)

Glenn Wujcik, the owner of All-County Contracting (ACC), headquartered in Raleigh, North Carolina, has been fascinated with spray rigs since he and his brother first used one in 1979 to insulate a van with spray polyurethane foam (SPF). His company specializes in applying SPF and roof coatings on existing buildings. Lately, he’s found silicone roof coatings are making up an increasing share of his company’s workload.

“The coatings industry in general is booming right now,” Wujcik says. “A lot of the TPO and EPDM roofs are nearing the end of their service life, and instead of tearing them off, if you catch them in time, you can go over it with the silicone coating and get a new 10-year warranty. Silicones have a proven track record. When you put it on properly, it weathers really well. It has excellent elongation.”

Wujcik characterizes himself as a hands-on owner who strives to be on the site for every job. He believes there is an art as well as a science to operating a spray rig properly, and experience is crucial. “I love doing this,” he says. “I’ve been doing it for more than 30 years, my business partner’s been doing it more than 30 years, and our best sprayer has sprayed more than both of us combined. We know what we have to do, we know how long it’s going to take, and we have the right equipment. We are really good about the preparation and the application.”

Coatings and spray foam are excellent products, but only in the right situations, notes Wujcik. They should only be used on the proper substrates and applied in the right conditions. “In spraying, the most important thing is knowing when not to spray,” he says. “Right now, I’m working on a job, and for the last two days, there have been 10-20 mph winds, and I haven’t finished it yet. I told the owner, ‘I haven’t oversprayed anything yet, and I don’t want to.’ I’d rather do it right and not have any problems.”

Wujcik points to a recent project on a mixed-use building in Angier, North Carolina, to illustrate some of the benefits of a silicone roof coating. “It’s a U-shaped building with about 14,000 square feet of roof space,” Wujcik notes. “There’s a bakery, a restaurant, a pharmacy, and a doctor’s office, and there are a lot of penetrations on the roof.”

The penetrations were the site of multiple leaks. Wujcik decided to use a high-solids silicone coating, GE Enduris 3502, to prevent leaks and extend the life of the roof. The monolithic coating will seal the penetrations, and the white reflective surface will provide an additional benefit: reduced cooling bills in the summer. “Putting a white coating on it is going to reduce their energy load in the summer pretty substantially,” he says.

Applying the Coating

On this project, the first step was to pressure wash the existing roof. “That’s where most coating jobs fail — surface preparation,” Wujcik states. “Washing the roof properly is one of the most important steps.”

The high-solids silicone coating was applied to the existing standing seam metal roof. Care had to be taken to ensure all sides of the metal ribs were properly covered with the material. Photos: All-County Contracting (ACC)

The company uses 4,000 psi belt-drive power washers, so care has to be taken not to damage the roof or skylights, which are covered and marked for safety reasons. The company follows all OSHA regulations, which in most cases means setting up safety lines 6 feet from the edge, with stanchions 10 feet apart, to establish a safety perimeter.

“Safety is my number one thing,” Wujcik says, “I’ve been doing this a long time and I’ve never had a lost-time accident. I preach safety. That is absolutely the most important — and accidents are expensive.”

The next step is to apply the GE Seam Sealer at the penetrations. “When this roof was originally installed 20 years ago, they did it textbook perfect,” Wujcik notes. “Each 4-inch pipe coming though had at least 20 fasteners holding it down.”

However, over time, the rubber grommets on the fasteners can degrade, and expansion and contraction can take their toll. “We have really hot summers here, we’ve seen roofs where literally thousands of fasteners have backed out,” he says.

The seam sealer is typically applied with a brush. “Any horizontal seams, any termination bars, any penetration that goes through the roof that has a screw, we apply the seam sealer,” he says. “It goes on quite thick — at about 80 linear feet per gallon.”

After the seam sealer cures for one day, the coating is applied. Spraying flat roofs with EPDM, TPO, and PVC membranes is a fairly straightforward process, according to Wujcik. “You basically spray it just like you would spray paint a wall,” he says. “You overlap your spray pattern 50 percent. I’ve been doing it for so many years, and you get a feeling for how fast you can go.”

After the roof was power washed, the seam sealer as applied to the seams and penetrations. After it cured, two coats of the high-solids silicone product were sprayed on the roof. Photos: All-County Contracting (ACC)

A wet mil gauge is used to ensure the proper thickness. Wujcik notes the high-solids silicone formulation has very little shrinkage as it dries.  “As we’re spraying, we insert the gauge into the wet coating and it tells you how many mils you have sprayed down. In this case, we were applying to achieve 21 dry mils.”

The spray rig is set up on the ground and operated by one man, while the sprayer and the hose man are working on the roof. “It’s a minimum of a three-man crew per coating rig,” he notes. “You’re dealing with about 6,000-7,000 psi of pressure, so you need special hoses rated for at least 7,000 psi. You never want to kink them. If you busted a hose, by the time someone came down from the roof to the machine, you could pump out 20 gallons on the ground. That’s why you need a ground man.”

Flat roofs are sprayed perpendicular to the roof, but the standing seam metal roof on this project called for a different technique. “On metal roofs with high ridges, if you don’t angle your gun you’ll miss the sides of the ribs,” Wujcik points out. “You have to do it from one direction, working one way, and then turn around and do it from the other direction, working the other way. If you try to spray straight down on the roof, you’re going to miss the nooks and crannies in all of those ribs.”

The surface area of the ribs also has to be taken into account when calculating the amount of liquid that will be applied, notes Wujcik.

The final step in the process is to touch up the applications at the penetrations to ensure a clean look. On vertical surfaces including parapet walls, crews ensure the coating is applied to a uniform height. “On the last day, we take up brushes and rollers and cut in straight lines,” he says. “That really finishes the job. The detailing gives it that final touch.”

Open for Business

The active and open jobsite posed some challenges. “There were a lot of cars around the building, so we had to be very careful not to hit them with overspray,” Wujcik notes. “When you’re working on a plant, you might be able to move all of the cars to a different location, but at doctor’s offices and restaurants, you have traffic in and out of the parking lot all of the time. We can use car covers if there are a few cars there, but when they are in and out like that, it’s not practical, so you have to be very careful when you do the job.”

The job was completed in the winter, and bad weather resulted in some delays. “A job like this in the summertime would have been a weeklong project at most,” Wujcik notes. “This project took almost a month because we had an exceptionally cold winter with a lot of high winds. It took extra time, but that’s my philosophy: If it’s not the right conditions, I just won’t do it.”

The project qualified for a 10-year warranty, and when it expires ACC plans to be there to pressure wash and recoat the roof for another 10-year warranty.

“We inspect our jobs every year,” Wujcik says. He notes that annual roof inspections and routine maintenance are the simplest and most cost-effective ways to ensure the roof’s life span. Yet these steps are often neglected.

“It’s amazing that some of these multi-million-dollar companies don’t send their maintenance guys up on the roof for 10 minutes to check the drains,” he says. “If a roof has 2 inches of pine needles around the drain, the whole roof has to have 2 inches of water on it before it begins to drain. That puts tremendous, tremendous stress on a roof. Keeping your drains clear is really important.”

TEAM

Roofing Contractor: All-County Contracting (ACC), Raleigh, North Carolina

MATERIALS

Roof Coating: Enduris by GE 3502, GE Performance Coatings, www.GE.com/silicones
Seam Sealer: GE Seam Sealer, GE Performance Coatings

Standing Seam Metal Roof Crowns Jaindl Farms Office Addition

The Jaindl Farms office complex sits on an a 12,000-acre turkey farm complete with its own feed mill. Photo: Steve Wolfe Photography.

Jaindl Farms is a multigenerational family business that encompasses a land development company and a fully integrated turkey farm. Its headquarters sits on 12,000 acres of farmland in Orefield, Pennsylvania, where the company grows the crops to make the feed for its turkeys. When the owners contacted MKSD Architects in Allentown, Pennsylvania, about adding space to their offices, the goals were to provide room to expand and to honor the Jaindl family’s history and legacy.

“The owner has a deep appreciation for all things agrarian and for old barns,” recalls Todd Chambers, partner, MKSD Architects. “One day we were meeting about the project, and he said, ‘What do you think about reusing the timber frame of an old barn?’ A light bulb went off.”

A large barn in Northampton County was located and dismantled, and the frame was repurposed for the office addition. The new two-story stone structure connects to the existing one-story office building, which was roofed with natural cedar shakes. A standing seam metal roof was specified for the new structure in

The new two-story addition was constructed with wood repurposed from a barn built around 1900. It was topped with a new standing seam metal roof. Photo: Steve Wolfe Photography.

keeping with the traditional architecture of the area. “We were concerned about the aesthetics, so standing seam was an obvious choice,” Chambers says. “We tried to keep the penetrations to a minimum and keep them out of the view of the main facade.”

The roofing contractor on the project was The Gehringer Company, headquartered in Whitehall, Pennsylvania. The company was called in to handle the project by the general contractor, Allentown-based Bracy Contracting Inc. The Gehringer Company’s president, Tom Gehringer, recommended a Dutch Seam roof system manufactured by ATAS International because it had the durability and aesthetics the project required, but was also easy to install. “It’s less labor-intensive than other systems because it doesn’t require a mechanical seamer,” he notes.

A Turkey Shoot

The roofing installation went very smoothly, according to Gehringer and Chambers. The Gehringer Company crews installed 6,400 square feet of ATAS MRD-110 Dutch Seam panels on the roof. They also installed approximately 500 square feet of metal panels as siding on the dormers. “It’s a 12-inch-wide piece with a raised section at the lock,” notes Gehringer. “When it’s installed looks like board and batten siding.”

The roof features dormers to bring in natural light. The dormers are sided with metal panels to minimize roof maintenance. Photo: The Gehringer Corporation.

Installation began in January 2017, so the weather posed the biggest challenge. “We did it when the temperatures were pretty low. The highs were in the 20s,” Gehringer recalls. “The nice thing is you can install the system in almost any temperature.”

After ATA-Shield high temperature synthetic underlayment was applied to the entire surface of the plywood deck, the roof panels were installed. “We worked from our aerial lifts,” Gehringer explains. “We purchased two aerial lifts several years ago and now use them for almost all of our steep roofing installations.”

Details included SL-2 Snow Meister snow guards from Berger Brothers. “In this climate, one of the tricky pieces with standing seam is sliding snow, so we specified snow guards that clamp to the standing seams,” Chambers says. “The ones we used emulate the turkey tail feathers.”

Roofing crews also tied in a small section of new cedar shakes to extend the hallway of the existing structure and connect it to the new addition. “We installed the original cedar shakes on the adjacent section for Bracy Contracting almost 20 years ago,” notes Gehringer.

The project went off without a hitch. Gehringer credits his company’s experienced crews and field supervisors for its

The snow guards installed on the project were chosen in part because they reminded the business owners of a turkey’s tail feathers. Photo: The Gehringer Corporation.

excellent track record. “I believe we’re one of the larger architectural metal roofing installers in our area and have virtually no callbacks on roofs we install,” he says. “What it boils down to is having people that know how to do it right — and having people that are committed to doing it right. And with architectural metal work, you have to take your time and do it right. This metal roof is going to look exactly like it looks now for at least 30 years.”

Looking back, what strikes Chambers is how different this project was from his typical assignments. “We’re commercial architects. We do a lot of health care work,” he says. “The ability to design something that’s not done every day, and is different than your typical approach, is refreshing and fun.”

TEAM

Architect: MKSD Architects, Allentown, Pennsylvania, www.MKSDarchitects.com
General Contractor: Bracy Construction Inc., Allentown, Pennsylvania, www.BracyConstruction.com
Roofing Contractor: The Gehringer Corporation, Whitehall, Pennsylvania, www.GehringerRoofing.com

MATERIALS

Metal Roof Panels: ATAS Dutch Seam MRD110, .032 aluminum, Medium Bronze, ATAS International Inc., www.ATAS.com
Metal Siding Panels: ATAS Multi-Purpose Panels MPW120, .032 aluminum, Sierra Tan, ATAS International Inc.
Synthetic Underlayment: ATA-Shield, ATAS International Inc.
Snow Guards: SL-2 Snow Meister Snow Guards, Berger Building Products, www.bergerbp.com

Multifaceted Residential Project Puts Contractor to the Test

Photos: Petersen

Diversification has always been a key component of Paul Graham’s business philosophy. Graham is the president of StazOn Roofing Inc., headquartered in Dallas, Texas. The company has been in business 38 years, handling all types of roofing, custom sheet metal fabrication and specialty wall panel systems.

Graham designed his company to be able to tackle multiple scopes of work on complicated projects. “Through time and through practice on all of these jobs, we’ve just been able to step up to the plate and maintain a multi-level task force to handle different types of work on the job,” he says.

The company’s diverse portfolio has been on display at Craig Ranch, a multi-phase residential development in McKinney, Texas. “It’s a high-end multi-family project,” Graham notes. “The most recent phase of the project involved a few five-story and predominately four-story buildings, all wood-framed. There are pools and courtyards with amenity areas for the residents.”

The buildings featured a blend of different roof systems. Crews from StazOn installed 60,000 square feet of shingles on roofs with a 4:12 pitch, 52,000 square feet of TPO on low-slope areas, and 8,500 square feet of standing seam metal roofing on roofs with an 8:12 pitch. They installed 22,000 square feet of standing seam wall panel cladding. The metal roof and wall panels were custom fabricated by StazOn with PAC-CLAD metal from Petersen in two colors, Zinc and Weathered Steel.

The company also fabricated and installed trim, flashing, gutters, collector boxes and rectangular downspouts. “We have our own sheet metal shop, so we can manufacture any type of architectural sheet metal product for our own jobs,” Graham says. “We also provided the builder with a proprietary door pocket at each of the door locations.”

Up on the Roof

The roofing work came first. On the large multi-family buildings, GAF EverGuard 60-mil white TPO was applied on the low-slope sections, which house the mechanical units and serve as a design feature on the project. “These were on the

Craig Ranch is a multi-phase residential community in McKinney, Texas. Condominiums and town homes feature shingles and standing seam metal roofs. The metal wall panels are a distinctive focus of the design. Photos: Petersen

perimeter of the buildings, primarily,” Graham explains. “The architect likes to showcase the walls, so to create that effect, they design a flat roof adjoining the pitched roof sections.”

GAF Timberline Dimensional Shingles in Weathered Wood were installed on the steeper sections of the large multi-family buildings. “These roofs had long, big runs,” Graham notes. “It was kind of like a roofer’s dream if you will, to shingle up there with nothing in the way. It was pretty wide open.”

Metal roofs were installed on a section of town homes. Where the intersecting roof sections formed valleys, crickets were installed to provide adequate drainage. These cricket sections were covered with TPO, and the details where the TPO roof and metal roof came together were crucial. “We terminated the TPO at the sloped roof with a receiver flashing that we heat welded to the TPO,” says Graham. “We take it one step further with that application, so we have a complete watertight transition from the TPO to the bottom of where the metal panel starts.”

The crickets divert water to the exterior, where it drains through the custom-made collector boxes. “The downspouts in those locations are oversized four-by-six downspouts fabricated at our shop from the Petersen material,” Graham notes. “Along with the other sheet metal items, we did the coping, the pre-flashing and flashing, the edge trim, and miscellaneous other vertical and horizontal expansion details.”

On the Walls

After waterproofing inspection of the exterior facade was completed, crews first applied a peel-and-stick building wrap from Grace, Vycor enV-S. “We took field measurements and we custom made all of the trim out of the four-by-eight sheets that Petersen supplied for the job,” Graham explains. “We make all of the trim to fit the windows, doors, penetrations, the steel support beams, which all get pre-flashed and clad.”

The metal roof and wall panels were custom fabricated with 24-gauge aluminum supplied by Petersen. Photos: Petersen

The 16-inch-wide wall panels were fabricated on the site. “We keep the panels protected until the guys are ready to install them,” Graham says. “We have everything we need right there on hand so we can keep up with the needs of the job as it is evolving.”

Panels are installed using a man lift. “From a safety standpoint and a production standpoint, it made sense to use the man lifts,” says Graham. “It’s the most maneuverable way to do the installation. We work in synchronization, moving three or four lifts at a time along the side of these walls as we work our way around the project.”

One unexpected challenge was a section of the leasing office that did not line up perfectly. “The builder came to us and asked if we could build the wall out and make sure all of the wall panels on the facade would be flush once the building was completed,” notes Graham. “We made some custom 16-gauge steel hat channels and Z-members and installed them as structural members to the wall. Then we installed the panels over the steel framing, so that we would have that same elevation and same build-out across the front of the building.”

Coordinated Attack

Phase III of the project was just completed, and Phase IV is now underway. Graham points to a few keys to navigating complicated projects like these. “It usually is a tight schedule, so coordinating with the builder to keep everything on schedule is the key,” says Graham. “You have to fabricate the necessary components and deliver them to the job in a timely fashion to keep the crews on target.”

Crews from StazOn Roofing installed the roof systems and wall panels, as well as custom-made trim, flashing, gutters, and downspouts. Photos: Petersen

Maintaining the consistency and quality of the details is also important, and experience helps. “We know what works best for the long haul,” he says. “At the end of the day, you want those details to line up with what the architect had as his vision, but we will make recommendations if we think there is a better way to construct a detail for specific conditions.”

The wall panels on this project were a top priority. “The specialty wall panel systems are so architecturally significant,” he says. “We kind of live and breathe them. We understand them. We’ve come across many, many challenges along the way on other jobs, so when we run into a new challenge, we just roll up our sleeves, get it figured out, design it with all of the people involved, and get going with it.”

Graham credits the Dallas-based builder and the Dallas-based architecture firm, JHP, for spearheading the successful project. “It’s nice when you have a team you’ve worked with and everyone understands what needs to be done to satisfy the client’s desires,” he says.

TEAM

Architect: JHP, Dallas, Texas, www.jhparch.com
Roofing Contractor: StazOn Roofing Inc., Dallas, Texas, www.stazonroof.com

MATERIALS

TPO: EverGuard 60-mil white TPO, GAF, www.GAF.com
Asphalt Laminate Shingles: Timberline Dimensional Shingle in Weathered Wood, GAF
Metal Roof and Wall Panels: PAC-CLAD 24-gauge aluminum in Zinc and Weathered Steel, Petersen, www.Pac-Clad.com
Building Wrap: Vycor enV-S, Grace, www.gcpat.com

Communication Is Crucial When You’re Working on Top of the Village Hall

Lincolnshire Village Hall houses city offices and a police station. The structure’s roof and gutter systems were recently replaced by All American Exterior Solutions. Photos: DaVinci Roofscapes

The Lincolnshire Village Hall, located in Lincolnshire, Illinois, houses city departments and the offices of elected officials, as well as the Lincolnshire Police Station. When its natural cedar shake roof and inlaid gutter system began to fail, city officials looked for a solution that would provide the desired aesthetics but last longer and require less maintenance.

Dale Pole of All American Exterior Solutions, a full-service union roofing contractor headquartered in Lake Zurich, Illinois, thought he had the answer. Pole, a 32-year industry veteran who is now the company’s vice president of operations, dropped off samples of a synthetic shake roofing tile manufactured by DaVinci Roofscapes and asked if city officials wanted to give it a try.

All American was awarded the job in 2016. The scope of work consisted of a complete re-roof of the complex, including the steep-slope roof system on the hall and tower. The project also included five sections of flat roofing and replacement of the copper gutter system. The job was complex, but All American was up to the challenge. The company worked in conjunction with Illinois Roof Consulting Associates, located in McHenry, Illinois.

The Steep-Slope System

The building’s signature feature is the observatory tower over the main entrance, which extends approximately 45 feet in the air. The main roof features a pitch change at the rear of the building, where the roof goes from 4:12 to 12:12. All

The complex is located right next to a large pond and bordered by mature trees, so the jobsite limited access to sections of the roof. Photos: DaVinci Roofscapes

American installed approximately 23,000 square feet of the DaVinci product, Bellaforté Shake in Tahoe, a blend of four colors. The company also fabricated the new gutter system out of 20-ounce lead-coated copper with soldered seams. Approximately 600 feet of new gutters were installed.

Work began in late spring, and the 23-year-old existing roof was torn off in sections. GAF Weather Watch Water & Ice Shield was applied as a leak barrier, followed by Proof Synthetic Underlayment from ABC Supply. “We couldn’t install the tiles until the inlaid gutter was in place, so we used a synthetic underlayment to keep everything watertight during the tear-off process,” says Pole.

Gutters were installed in an 8-inch-by-8-inch trough. “There was a course or two of the DaVinci, and then the inlaid gutters were set into the roof, and the roof starts again,” notes Pole. “The trough area was also layered with ice and water shield before the copper gutters were put in.”

Transitions and flashings were also made of copper. “Everything on this job was 20-ounce lead-coated copper,” notes Pole. “All of the valleys, transition flashing, and the gutters were all lead-coated copper.”

The DaVinci synthetic shake tiles were easy to install, according to Pole. “They are nailed in place,” he says. “You can use stainless steel nails or hot-dip galvanized nails. In this case, we used 1-1/2-inch stainless steel ring shank nails.”

Low-Slope Areas

The low-slope roofs were covered with a GAF two-ply modified bitumen system. Michael McCory, project manager, headed up the crews on the five low-slope sections, which totaled approximately 2,700 square feet.

The observatory tower over the main entrance features a walk-out area with a modified bitumen roof system. Photos: DaVinci Roofscapes

The low-slope sections had different substrates. Two balconies had concrete decks, while two canopies and an area over the garage had wooden decks. Some of the flat roofs had paver systems, which had to be removed and replaced after the new system was installed.

Half-inch DensDeck Prime cover board from Georgia-Pacific was installed over the wood and concrete decks. The GAF mod bit system consisted of a Ruberoid 20 base sheet and Ruberoid Granular FR cap sheet in white. “It was applied in a cold-process adhesive,” says McCory. “No torches were used. A manufacturer’s inspection was part of the process for a 20-year warranty.”

The upper level of the tower features a small walk-out balcony. “That was probably the most difficult area,” notes McCory. “It was covered with pavers and difficult to reach. We had to remove the pavers and store them in the stairwell during the installation.”

A Challenging Jobsite

Logistics at the jobsite posed a few problems. “The hardest part was the observatory tower by the front entry,” Pole recalls, noting an 80-foot man lift was used to remove the existing cedar and install the synthetic shake. “On the tower, it was all lift work. For other parts of the project, workers on both the steep-slope and the low-slope portions of the roof were tied off at all times.”

Crews installed 23,000 square feet of Bellaforte Shake by DaVinci Roofscapes on the building’s main roof. Photos: DaVinci Roofscapes

The building is bordered by mature trees and a large pond, limiting roof access. “On the west side of the structure, the pond comes right up against the building,” Pole says. “We had to use a lift that could stretch over that pond to get that end of the roof.”

An Equipter mechanized debris hauler was used to get around narrow grassy areas near the building. “We used an Equipter, which is like a gas-powered, mobile dumpster, to drive around the building and enter the courtyard for our debris,” Pole says. “We have two of those pieces of equipment, which we use on a lot of our jobs to get the shingles out. They don’t damage lawns and help protect the landscaping.”

The building was occupied during the installation, so care had to be taken to ensure business was not disrupted and passers-by would be safe. “The village offices were open for business while we were working, and the police station was open as well,” notes McCory. “The tower and front entryway had to be completed on the weekend, as that was the only walkway for the public to get in.”

The police station had several doors, so crews had to coordinate with officers while replacing the roof on that section and let them know where they were setting up the crane. The courtyard area was also restricted at times.

“We obviously had to keep everything neat and organized and make sure we cleaned up every day to make sure nothing would bother the people working in the building and the residents who came in to the village hall to get permits or whatever the case may be,” McCory says. “You don’t want police cars getting flat tires.”

Communication is the key to meeting customers’ needs, especially with an occupied building. “Whoever the building owner is, I give him my cell number and make sure I have his,” Pole notes. “I try to stay in contact with them and let them know if anything is changing. I ask them if they have any questions or issues, or if their schedule is changing. On this project, they said it was like we were never even there, and that’s what we like to hear.”

Feedback from the city has been positive, according to Pole. “They are very happy with it,” he says. “The system has the look they wanted. It looks like shake, they had a lot of colors to choose from, and they won’t have the maintenance issues that they did with the cedar. And it will last a lot longer. They will save a whole roof replacement phase in the life of the DaVinci product.”

Pole believes his company’s diverse portfolio gives it an edge. “We’re one of very few union companies that have their own shinglers, flat roofing crews, and sheet metal workers in house. We also do waterproofing, metal wall panels and insulation,” he says.

“This project shows our strength — we can do it all.”

TEAM

Roofing Contractor: All American Exterior Solutions, Lake Zurich, Illinois, www.aaexs.com
Roof Consultant: Illinois Roof Consulting Associates, McHenry, Illinois, www.irca.com

MATERIALS

Steep-Slope Roof System
Synthetic Shake: Bellaforté Shake in Tahoe, DaVinci Roofscapes, www.DaVinciRoofscapes.com
Underlayment: Proof Synthetic Underlayment, ABC Supply Co. Inc., www.ABCsupply.com
Leak Barrier: Weather Watch Water & Ice Shield, GAF, www.GAF.com

Low-Slope Roof System
Modified Bitumen Base Sheet: Ruberoid 20, GAF
Modified Bitumen Cap Sheet: Ruberoid Granular FR, GAF
Cover Board: DensDeck Prime, Georgia-Pacific, www.DensDeck.com

Challenging Wintertime Installation Completed on Tight Schedule

Roofing work on the 250,000-square-foot expansion of Chicago Premium Outlets was completed in five months under challenging weather conditions. Photos: Johns Manville

The Chicago Premium Outlets 250,000-square-foot expansion includes 30 new or expanded stores, two new restaurants, 2,200 additional parking spaces, public art, outdoor fireplaces and a large pond. According to Mike Reynolds, senior project manager for Olsson Roofing Company Inc., headquartered in Aurora, Illinois, “Chicago Premium Outlets is more of a pedestrian mall since the expansion.”

Located approximately 40 minutes from downtown Chicago, the complex now features more than 170 stores including Adidas, Coach, Nike, kate spade new york, Movado Company Store, Saks Fifth Avenue Off 5th, Tommy Hilfiger, Vera Bradley, and Restoration Hardware. The reflecting pond is an inviting rest stop for shoppers, and it includes a play area and a pier-like pavilion with tables, chairs and umbrellas. To support the expansion, Olsson Roofing Company, the roofing contractor on the project, selected a TPO roofing system manufactured by Johns Manville.

A Challenging Installation

The project team faced two pressing challenges: weather and an aggressive timeline. The roofing-installation time frame fell between January and May, so the majority of the work needed to be completed during the coldest time of year. “We had our work cut out for us,” Reynolds says.

Photos: Johns Manville

The second challenge was the schedule. “The Olsson Roofing team worked several Saturdays and overtime to get the project finished as quickly as possible,” notes Reynolds. “We even heated the inside of the buildings to melt the snow on the roof and shoveled areas to make room for the product on the roof.”

Olsson Roofing chose to install the roof system using the RhinoBond induction welding attachment system from OMG Roofing Products. “We knew that RhinoBond would contribute to a successful installation of the TPO since we were dealing with below-freezing temperatures for most of the first 90 days,” Reynolds says.

Photos: Johns Manville

The 60-mil TPO was installed over two layers of ENRGY 3 roof insulation (one layer was 2 inches thick and the 2.5 inches). The majority of the roof surface features white TPO, but some EPDM was also used. “Olsson Roofing also used JM EPDM for the parapet walls since rubber is more flexible and quicker to install in cold weather and on vertical surfaces. They appreciated the ability to mix the systems and keep the project moving forward during cold-weather installation,” says JM sales representative Jason Conley. “With such a tight deadline, it was great to have the versatility of two excellent products — the durable 60-mil JM TPO and the flexibility of the JM EPDM, which provided just the right solution for our customer.”

TEAM

Architect/Specifier: FRCH Design Worldwide, Cincinnati, Ohio, www.frch.com
General Contractor: Graycor Inc., Oakbrook Terrace, Illionis, www.graycor.com
Roofing Contractor: Olsson Roofing Company Inc., Aurora, Illinois, www.olssonroofing.com

MATERIALS

Insulation: ENRGY 3, Johns Manville, www.JM.com
Membrane: 60-mil TPO in White, Tan and Light Grey, Johns Manville
Attachment System: RhinoBond, OMG Roofing Products, www.OMGroofing.com

New NHL Practice Facility and Community Center Sports Vegetative Roof

The American Hydrotech Extensive Garden Roof Assembly was installed on two sections of the roof. The system was topped with pre-grown mats featuring mature sedum plants. Photo: American Hydrotech Inc.

The Chicago Blackhawks have captured the hearts of the city of Chicago along with three Stanley Cups in the last decade. The Blackhawks routinely lead the league in attendance at the United Center, and fans were excited when the team announced it would build a new 125,000-square-foot training facility and community center in downtown Chicago.

Completed earlier this year, the MB Arena features two NHL-sized ice rinks and other amenities including a fitness center, dining options, and spaces that can be rented for outings and events. The facility is the practice site for the Blackhawks and also hosts youth hockey, adult hockey leagues and public skating.

When plans for the project were unveiled, architects and planners mandated the facility meet or exceed all green and sustainable standards for the city. Chicago has been a leader in promoting vegetative roofs to help control storm water runoff, and this new construction project was no exception. The arena includes the construction of 24,000 square feet of green roof systems to complement the structure’s 68,000-square-foot main roof. A 60-mil TPO system manufactured by Carlilse SynTec was specified for the upper roof assembly, and plans called for an American Hydrotech Extensive Garden Roof Assembly to be placed on two lower sections of the roof.

The Garden Roof Assembly

Architect HOK worked with American Hydrotech during the design stage to select roofing components and plants that were optimized for the climate conditions and the building’s structural limitations.

According to Dennis Yanez, national marketing manager, American Hydrotech, and Kevin Serena, garden roofing technical sales coordinator for the central region, the structure’s metal deck necessitated a lightweight system.

The 125,000-square-foot facility 24,000 square feet of green roof systems that complement the structure’s 68,000-square-foot main roof. Photo: Chicago Blackhawks.

“Our 4-inch extensive garden roof system was ideal for this project,” says Yanez. “Since part of this project had a metal deck, there are more structural capacity concerns than with a concrete deck, so we were able to put together a lightweight, built-in-place system.”

The assembly consists of a hot-applied rubberized asphalt membrane, MM6125, which is applied to the roofing substrate to form a monolithic coating. It is topped with a root barrier and Dow Styrofoam insulation. The system also incorporates Hydrotech’s Gardendrain GR15, a molded polyethylene panel designed to retain water, filter fabric, lightweight growing media, and mature plants.

The plants are installed in the form of the InstaGreen Sedum Carpet, a pre-grown mat that comes in 25-square-foot rolls. It contains between nine and 15 different types of sedum and provides instant coverage when it is installed.

Key benefits of the system include reducing the urban heat island effect, purifying the air, and limiting storm water runoff, notes Yanez. “The Extensive Garden Roof Assembly is able to capture more than 1.5 inches of water on the roof, which plays a major role in storm water management,” he says.

The system also protects the membrane from ultraviolet (UV) degradation and damage from wind-blown debris. “Most importantly, for us, a garden roof is just another version of a PMR, or protected membrane roofing,” says Yanez. “Because the membrane is always in a PMR application, with Dow insulation over it, whatever ballast — whether it’s gravel ballast, or architectural pavers, or the garden roof assembly — is in place makes it literally impossible for the membrane to get damaged. It also mitigates the climate swings, keeping the membrane at a more constant temperature year-round.”

This system has a proven track record, according to Yanez. “We’ve been doing this going back 50 years on parking decks under regular topsoil, where weight wasn’t a concern,” he points out. “This is just a more modern version of that, but we’re putting it on the 4th, or the 14th, or the 99th floor.”

The Roofing Installation

All American Exterior Solutions, Lake Zurich, Illinois, is an approved applicator for both key manufacturers. The union contractor installed the Carlisle TPO system on the building’s main roof and the Hydrotech green roofs on the two lower roof levels.

Willie Hedrick, division manager at All American Exterior Solutions, notes that the TPO roof was installed first. “The deck was acoustic, so first we had to lay strips insulation in the flutes over the entire main roof,” he says.

The lightweight growth media was lifted to the roof in 2-yard totes. Photo: Christy Webber Landscapes.

Areas that housed mechanical equipment were reinforced with two layers of 5/8-inch DensDeck from Georgia-Pacific. Two layers of 2.6-inch insulation were then installed, followed by the 60-mil TPO, which was mechanically attached using the RhinoBond system from OMG Roofing Products. The attachment system uses induction welding technology to attach the membrane to the fasteners and plates that secure the insulation — without penetrating the membrane.

The main roof was originally designed as fully adhered system, but work began in January, and the temperature constraints ruled out some adhesives. “Once we made the switch to RhinoBond, we were able to install the membrane even though we did it during the winter,” Hedrick says.

Most of the TPO roof was surrounded by high parapet walls, and in other areas the safety perimeters were marked with flags. “At a few points at the highest points of the main roof we had to put up some the flags, and if you were outside of the flags you had to be tied off,” notes Hedrick. “The mid-roofs had short parapet walls, and on those roofs, we set up flags and had 100 percent fall protection outside the safety perimeter. For the lower green roof, we put guardrails up on the parapet to eliminate the fall hazard.”

The Garden Roofs

After the TPO sections were installed, work began on the extensive garden roof assemblies. The mid-roof had a metal deck, so the first step was to screw down 5/8-inch USG Securock cover board and strip in the seams. “At that point, we installed the liquid-applied membrane and the protection board,” Hedrick says.

The second green roof was installed over a concrete deck, so the application was a bit different. The membrane was applied directly to the concrete. A late change was made in the configuration of the lower green roof to take advantage of the space. “The owner decided to add a terrace to the lower green roof so people could walk out and see the roof and views of the city,” Hedrick recalls.

Before the growing media and plants were added, electronic field vector mapping (EFVM) was conducted by International Leak Detection to determine if there were any voids in the membrane. “You’ve got to confirm everything is 100 percent watertight before we start setting the components down,” Hedrick says. “We usually do the test and start putting the components down the next day to minimize exposure. The subcontractor we worked with to do the landscaping, Christy Webber, performed well. Since some of the components are loose laid, we worked with them to put down enough soil to hold everything in place. We worked hand-in-hand getting the all of the components and soil in.”

The Landscape Work

Jim Waldschmidt, project manager for Christy Webber Landscapes, Chicago, oversaw the installation of the lightweight growing media and sedum mats on the roof. Christy Webber is a full-service union landscaping company, and Waldschmidt notes that roofing work is a small but growing share of the company’s business. “We work with a few different commercial roofers,” he says. “This year we’ve done maybe 10 commercial projects.”

After the growing media was evenly spread out, the sedum mats were laid into place by crews from Christy Webber Landscapes. Photo: Christy Webber Landscapes.

Logistics at the site made for an easy delivery and setup — an unusual situation in downtown Chicago. “We were able to deliver the soil almost a week before we were scheduled to go out there, so we had everything on site and knew we wouldn’t have to worry about waiting,” Waldschmidt notes. “We just had to bring in a crane and lift up the soil bags. We had a pretty easy installation compared to other green roofs we’ve done.”

Growing media was lifted to the roof in 2-yard tote bags, which were cut open to disperse the contents. Three days after the growing media was in place, Christy Webber crews returned to install the sedum mats. “The sedum mats are delivered on pallets almost like the way a roll of sod would be delivered,” says Waldschmidt. “We just had to set the pallets on the roof, pull off the sedum mats and unroll them.”

A temporary irrigation system was set up to help the plants get established in the hot July temperatures. “Everything looks great now,” Waldschmidt says. “All of the sedum up there is thriving.”

Growth Sector

In this high-profile project, with a high-profile owner, making sure the system was error-free was critical, notes Serena. “Chicago is definitely the leader in vegetative roofs, and has been for more than 10 years,” he says. “This is another prime example. There was never a question whether this building would have a green roof on it. It’s a credit to Chicago, and it is a credit to the Chicago Blackhawks.”

Hedrick is proud to be part of the green roof movement. “I like the challenge, and I like the diversity,” he says. “When the Blackhawks went to the Stanley Cup championship and the blimp was hovering over the arena, I could see a couple of my projects on TV. It reminded me of all the time, effort, attention to detail, and collaborative hard work that it took to produce the final product. We’re turning typically unusable roof areas into useful space for amenities.”

The key driver of green roofs is storm water management, notes Yanez, but turning rooftops into useful space is another key benefit. “We’re seeing more and more city incentives for storm water management,” he says. “In urban areas, people are also taking advantage of existing space with green roofs. It’s a growing industry — pun intended.”

TEAM

Architect: HOK, Chicago, www.HOK.com
General Contractor: James McHugh Construction, Chicago, www.McHughConstruction.com
Roofing Contractor: All American Exterior Solutions, Lake Zurich, Illinois, www.AAEXS.com
Landscape Contractor: Christy Webber Landscapes, Chicago, www.ChristyWebber.com

MATERIALS

Garden Roof System:
Cover Board: Securock Gypsum-Fiber Roof Board, USG, www.USG.com
Membrane: MM6125 hot rubberized asphalt membrane, American Hydrotech Inc., www.HydrotechUSA.com
Protection Sheet: Hydroflex 30, American Hydrotech Inc.
Root Barrier: Root Stop, American Hydrotech Inc.
Insulation: DOW Styrofoam, DOW Chemical, www.Dow.com
Drain Board: Gardendrain GR15, American Hydrotech Inc.
Filter Fabric: System Filter fabric, American Hydrotech Inc.
Growing Media: LiteTop Engineered Growing Media, American Hydrotech Inc.
Plants: InstaGreen Sedum Carpet, American Hydrotech Inc.

TPO Roof System:
Membrane: 60-mil TPO, Carlisle SynTec, www.CarlisleSyntec.com
Cover Board: DenDeck, Georgia-Pacific, www.BuildGP.com
Attachment System: RhinoBond, OMG Roofing Products, www.OMGroofing.com

Roof Restoration Project Brings Back Luster to Quicken Loans Arena

The 170,000-square-foot roof of Quicken Loans Arena was completely restored using a liquid-applied system from Tremco Roofing. Photos: Tremco Roofing and Building Maintenance

Re-roofing sports and entertainment venues presents its own set of challenges. Sports arenas usually host concerts and other events, so scheduling and logistics can be difficult. Quicken Loans Arena in Cleveland — also known as “The Q” — is home to the Cleveland Cavaliers of the NBA, and it hosts some 200 other diverse events every year, including concerts and conventions. In 2015, realizing the roof was reaching the end of its useful life, the owners looked for advice on their next move. A team of roofing professionals recommended a roof restoration system that would provide the protection and recreate the aesthetics of the original roof — and keep disruption to the facility at a minimum.

Ohio companies stepping up to help the home team included architect Osborn Engineering, headquartered in Cleveland; roof consultant Adam Bradley Enterprises of Chagrin Falls; roofing manufacturer Tremco Roofing and Building Maintenance, headquartered in Beachwood; and roofing contractor Warren Roofing & Insulating Co., located in Walton Hills. After comprehensive testing revealed that more than 90 percent of the roof could be restored, they developed a plan to clean, repair and completely restore the 170,000-square-foot main roof of Quicken Loans Arena using a liquid-applied system from Tremco Roofing.

John Vetrovsky of Warren Roofing and Joe Slattery of Tremco Roofing shared their insights on the project with Roofing magazine. Both men were brought in during the planning stages of the project and saw it through to completion. “We were helping to budget the project with Adam Bradley and Osborn Engineering,” notes Vetrovsky. “They were asking about a few different systems, and the Tremco system was the best fit for the project.”

Warren Roofing has served the greater Cleveland and Akron area since 1922, and Tremco’s roots in northeast Ohio go back to 1928. Warren Roofing served as the general contractor and roofing contractor on the project. The scope of work included updates to the lightning protection system, the safety cable system, and the heat trace system used to melt snow in the gutters.

Repairing the Existing Roof

The existing system was the structure’s original roof. It was 24 years old, and consisted of a mechanically attached hypalon membrane over two layers of polyisocyanurate insulation totaling 3 inches. The roof membrane was showing some wear, and sections had sustained damage from an interesting source: fireworks from nearby Progressive Field, home of the Cleveland Indians, launched after the Indians hit home runs. After the damage was detected, the team changed the direction the fireworks were launched, and the problem ended.

Crews from Tremco Roofing cleaned the roof using the company’s RoofTec system, which recaptures the water and returns it to a truck to be filtered. Photos: Tremco Roofing and Building Maintenance

Despite the damage, visual analysis and a nuclear roof moisture test using a Troxler meter confirmed the roof was an excellent candidate for restoration. “There was some wet insulation and warped insulation, and we marked off those areas that had to be replaced,” notes Slattery. “It was a small fraction of the total job.”

Crews from Warren Roofing removed and replaced the damaged insulation, cutting through the membrane all the way down to the existing 6-mil vapor barrier on the deck. “All of that insulation had to be stair-stepped back so we could properly lap in the new material,” Vetrovsky says. “We got rid of all of the damaged insulation, and we repaired the vapor barrier. Then we staggered the two new layers of insulation, matching the existing thickness.”

Where possible, the existing membrane was pulled back and glued into place. In sections where new membrane was needed, crews adhered pieces of EPDM.

The plan specified adding the fasteners in the existing roof and any repaired sections before the coating system was applied. Tremco Roofing conducted uplift testing through Trinity ERD to ensure the results met or exceeded the specified design. “There was a significant upgrade to the fastening,” Vetrovsky says. “Because of the shape of the building, the perimeter enhancement was probably the greatest I’ve ever seen.”

Screws and 3-inch plates were used. In the field, the minimum was 4 feet on center, 12 inches apart. In the perimeter, fasteners were installed 2 feet on center, 8 inches apart. “It worked out nicely because the fastening ended up in the middle of the sheet, and now the sheet has fasteners that are original at the seam, and a foot or two over, there is a row of new fasteners,” notes Vetrovsky.

Cleaning Up

Prior to the fasteners being installed, the membrane was cleaned by crews from Tremco Roofing using the company’s RoofTec system. “We cleaned the membrane no more than 30 days ahead of what Warren Roofing was doing,” notes Slattery. “We had to mobilize at least three times to clean the roof so the time elapsed would never be more than 30 days.”

The three-step restoration process consists of a primer, a base coat with a fiberglass mat embedded in it, and a topcoat. Here, crews embed the fiberglass mat in the base coat. Photos: Tremco Roofing and Building Maintenance

The cleaning solution is applied using a custom-designed tool that looks like a floor polisher. It has a 2-foot diameter head that spins to clean the surface and a vacuum that recaptures the water, which is returned via hoses to a truck so contaminated waste water, environmental pollutants and high-pH cleaning solvents can be filtered out. “All of that water goes back into the sanitary system after it’s filtered,” Slattery explains. “It does not go into the sewer system.”

“It’s very fast, it’s very effective, and it’s very efficient because you can easily see the areas that have been cleaned,” notes Vetrovsky. “With power washing, you don’t have any way to filter the water.”

The biggest challenge on the cleaning portion of the project was the arena’s sheer size. Approximately 500 feet of hoses were needed to supply water and return it to the truck for filtering.

Cleaning of the substrate is a crucial step, according to Vetrovsky. “The system really does a nice job cleaning the membrane, and that is the key to any restoration project,” he says. “You’re only as good as the surface you’re applying it to.”

Applying the New Roof System

After the sections were cleaned, crews installed the liquid-applied AlphaGuard MT system. The three-step process consists of a primer, a base coat with a fiberglass mat embedded in it, and a topcoat. In this case, the primer was applied with rollers. “The area that we primed each morning was the section we would apply the first coat of AlphaGuard MT with the fiberglass mat that afternoon,” Vetrovsky says. “We did not prime ahead. We didn’t want to take the chance of dust adhering to the primer.”

The top coat was applied with both rollers and spray equipment. Photos: Tremco Roofing and Building Maintenance

Care had to be taken with the schedule to complete the work efficiently. “Once the base coat is on, you have 72 hours to apply the top coat,” Vetrovsky explains. “We would install the base coat and the fiberglass mat for two to three days to get a big enough area. The topcoat would go on faster because you’re not embedding any mesh into it. You really had to always keep an eye on the future weather to make sure you could get the topcoat on within the 72 hours.”

The topcoat was applied with both rollers and spray equipment. After the topcoat was applied, crews installed a second coat with sand embedded in it as a wear surface. Because of the roof’s curved surface, walk pads were not feasible, so the sand was used to provide additional traction for any workers conducting ongoing maintenance.

The sand was broadcast by hand and back-rolled into the coating to maintain a uniform appearance. “Part of this project was to make sure the sand looks uniform when it is visible from a blimp overhead,” notes Vetrovsky. “That was a difficult task, but the guys did a great job.”

The roof features three different finish colors, which were custom designed to match the roof’s original color scheme. The main roof is light gray, with black under the large LED sign. The sections over the wings are white, as are the 2-foot-wide stripes.

“They wanted black under the new LED sign so it would really show the letters nice and clear, even during the day,” says Vetrovsky. “We also put the white stripes back to match the roof’s original appearance. That was a challenge, to keep everything straight. It’s hard to chalk lines on a curve, but it came out nice. Everything matches what the original roof looks like.”

Penetrations for the sign included round posts that held the rails about 2-1/2 feet above the roof level. The liquid-applied membrane made coping with details easy, according to Vetrovsky. “The liquid membrane makes the flashing details all one piece with the roof system,” he says. “We removed the existing boot flashings so that we could seal directly to the conduit or steel posts.”

Gutters, Lightning Protection and Safety Systems

The large commercial gutters also needed to be refurbished. The gutters were 4 feet deep and 4 feet wide, and were outfitted with a cable snowmelt system, which had to be removed. “The gutters had a lot of damaged insulation, so material in the gutter sections was 100 percent torn off,” notes Vetrovsky.

After the roof surface was cleaned, the restoration system was applied. The three step process consists of a primer, a base coat with a fiberglass mat embedded in it, and a topcoat. Photos: Tremco Roofing and Building Maintenance

In the gutters, tapered insulation was installed, and a cover board — DensDeck from Georgia-Pacific — was added for increased durability. New EPDM membrane was installed and cleaned prior to the three-step coating application. New heat trace cable was also installed.

The lightning protection system also required repair, and close coordination with the subcontractors was critical. “The existing lightning protection had to be removed to apply the new roof system, but we couldn’t remove it 100 percent, because we still had to have an active lightning protection system for the building,” says Vetrovsky. “We rearranged the lightning system and installed new stanchions to try to eliminate as many horizontal lines as we could.”

During construction, key to the safety plan was a perimeter barrier system, which was installed by workers who were 100 percent tied off. After the system was in place, workers inside the barricades did not need to wear personal fall arrest systems. “The entire perimeter had a barricade system put on before any material was even loaded,” Vetrovsky says. The company makes its own barricade sections, which are anchored to the parapet walls and gravel stop edges and feature a downward leg for added support.

As part of the project, crews also installed permanent safety equipment. “There was an existing tie-off system out there, but it was not a certified system and we couldn’t use it,” Vetrovsky says. “We brought that to the owner’s attention and replaced it with a new certified tie-off system manufactured by Guardian Safety.”

Challenging Schedule

Progressive Field and the Quicken Loans Arena are right next to each other, and logistics and scheduling around the stadiums was difficult. Work began in 2016 and finished in 2017, and the demanding schedule was made even more difficult when both the Indians and the Cavaliers made deep runs into the playoffs. In 2016, the Cavs became NBA Champions. But it was the Indians making it to the 2016 World Series that posed bigger logistical problems for the re-roofing project.

The restored roof recreates the original color scheme, which features three different custom colors. The main roof is light gray, with black under the large LED sign, while the sections over the wings stripes are white. Photos: Tremco Roofing and Building Maintenance

“The first part of the schedule was the most difficult, as we had the get the black coating on the roof under the sign prior to the playoffs,” Vetrovsky says. The sign covered approximately 30,000 square feet of roof area, and it was difficult to access the roof surface beneath it. “Crews had to work on their hands and knees to apply the coating beneath the steel framing. That was towards the fall, when the weather started changing, and one of the biggest hurdles was just getting the roof dry in the morning. It got colder and colder as we got down to the wire, but we made our deadline for the work under the sign.”

The staging area was also limited, and the crane could only lift material to one section of the roof. Some material had to be moved by hand some 2,000 feet. “It was an awfully long walk from one end of that roof to the other,” Vetrovsky recalls.

Concerts and other events held during the construction cycle made the schedule even more challenging. “The most notable event was probably the Republican National Convention, which totally shut the site down for more than a week because of security,” notes Slattery.

Concerts usually necessitated loading in the early morning and clearing the staging area by 8 a.m., but usually work could continue during the day. “We had to do a lot of coordination to make sure we had what we needed to work the entire day and also not go against our commitment to the owner that we would not work past certain hours,” Vetrovsky says. “Many of the special events started after 7 p.m., so we would be long gone by then.”

Championship Caliber

The project was wrapped up earlier this year. Vetrovsky and Slattery agree that the system chosen was a great fit for this project for several reasons. With restoration, there is less noise, less disruption, and less equipment than with a re-roofing project, and the roof has a warranty for the next 20 years. The process also limits negative impact on the environment by preventing removal and disposal of the old roof system.

“The weight was also a factor,” notes Vetrovsky. “With the existing structure, there wasn’t a lot of room for a different type of roof system with heavy cover boards. This roof system was perfect because it doesn’t add a lot of weight.”

The coating also minimized installation time, notes Slattery. “The disruption of a roof replacement in a hospitality setting like that, where they need 250 days of revenue stream, restoration becomes a real attractive option,” he says. “I can’t think of one day where we really disrupted anything.”

Vetrovsky points to his talented crews as the key to meeting tough schedules with top-quality production “What we can offer is skilled labor,” he says. “We’re a union contractor and our guys are well trained. The harder, the better for us. We can handle projects that most other contractors won’t even put a number to — this project being one of those.”

He credits Adam Livingston, a third-generation foreman for Warren Roofing, for his work on the project.  “With his experience and attention to detail, we were able to complete this project on time, meet the expectations of the client and Tremco, and match the unique aesthetic requirements of the roof,” says Vetrovsky. “We have a lot of great employees who take pride in their work. Take all of that together, that’s why we can be successful on projects like the Quicken Loans Arena.”

The Cavaliers taking the NBA Championship during the project only added to the excitement. “It’s a great feather in our cap,” notes Slattery. “Restoration is a growing segment of the market. Instead of letting the clock run out on these roofs, if you catch them at the right time, it can be a phenomenal way to keep costs down and it’s good for the environment because it’s not adding waste to landfills.” 

TEAM

Architect: Osborn Engineering, Cleveland, Ohio, www.osborn-eng.com
Roof Consultant: Adam Bradley Enterprises, Chagrin Falls, Ohio, www.adambradleyinc.com
General Contractor: Warren Roofing & Insulating Co., Walton Hills, Ohio, www.warrenroofing.com

MATERIALS

Roof Cleaning System: RoofTec, Tremco Roofing, www.tremcoroofing.com
Roof Restoration System: AlphaGuard MT, Tremco Roofing

PVC System Is the Answer for U.S. Bank Stadium Roof

U.S. Bank Stadium is topped with a PVC roof system that display’s the company’s logo. Photo: Johns Manville

When discussions began about the new U.S. Bank Stadium in Minneapolis, Minnesota, there was a request for an outdoor stadium. However, state and local government provided funding specifically for an indoor stadium that would be able to host major events like the professional football championship game and the college basketball championship game. As a result, a translucent roof and mobile front windows were designed to allow natural light to enter the stadium and to give fans a view of downtown Minneapolis. The mobile windows also allow fans to experience outdoor elements while providing protection from snow, rain and cold winter weather. The roof design was developed taking into consideration the budget and the region’s weather; it would be costly to make it retractable, and a sloped roof lends to a more secure option for snowy weather.

Challenging Task

Berwald Roofing Company Inc., headquartered in North St. Paul, Minnesota, installed an adhered PVC roof system manufactured by Johns Manville over the structure’s metal deck. In all, 280,000 square feet of grey 60-mil PVC were installed. The system also included a vapor barrier and two layers of 1.6-inch ENRGY 3, a rigid roof insulation board composed of a closed-cell polyisocyanurate foam core with fiberglass reinforced facers. Half-inch DensDeck Prime cover board from Georgia-Pacific was also installed.

The roofing portion of the project began in April 2015, with an aggressive completion deadline of November 1, 2015. The schedule and logistics on the project posed major hurdles. “Getting material 300 feet up to the roof was our biggest challenge,” says Berwald Roofing Senior Project Manager Steven Hegge. “A big part of that was scheduling time to share the cranes with the iron workers and general contractor.”

Another challenge was storing material during the installation due to the limited amount of space on the roof. “All the decking had to be installed as we went along, just before roof installation,” Hegge states. “We were on a very tight time schedule in this multiple-phase construction project.”

“The general contractor and Berwald Roofing have worked with Johns Manville on numerous stadium projects in the past and preferred to use JM PVC on this complicated stadium project,” notes Johns Manville sales rep Bob Deans. “This application is on a 3.75-inch to 12-inch slope on the north side of the building, which adds to the difficulty of installing a fully adhered PVC roof assembly.”

The Solution

Due to restricted loading space at the jobsite, materials arrived to Berwald’s yard directly from the manufacturer. They were then loaded on Berwald Roofing semi-trucks each day for delivery. Once they arrived at the site, they were immediately lifted to the roof via tower cranes and installed in the most efficient time frame, to meet the owners expected installation timeline.

The stadium seats approximately 65,000 people for most games. However, this space is built to be expandable to hold up to 73,000 attendees for special events such as the professional football championship game, which the stadium is scheduled to host on February 4, 2018, and for events like the college basketball championship game, which will be held there in 2019. U.S. Bank’s logo is prominently displayed on the rooftop. Charcoal grey 60-mil PVC membrane was cut to specification using a computerized cutter to create an exact replica of the U.S. Bank logo. Berwald Roofing then adhered the charcoal grey PVC on top of the grey 60 mil PVC membrane using JM PVC low-VOC membrane adhesive and then heat-welded the edges of material to finish the application of the logo.

TEAM

Architects: HKS Inc., www.hksinc.com; Studio Hive, www.studiohive.com; Studio Five; and Lawal Scott Erickson Architects Inc., http://lse-architects.com
General Contractor: Mortenson Construction, Minneapolis, Minnesota, www.mortenson.com
Roofing Contractor: Berwald Roofing Company Inc., North St. Paul, Minnesota, https://berwaldroofing.com

MATERIALS

Roof System: 60-mil PVC, Johns Manville, www.jm.com/roofing
Vapor Barrier: Johns Manville
Insulation: ENRGY 3® Insulation, Johns Manville
Cover Board: DensDeck Prime, Georgia-Pacific, www.gp.com

Three Sioux City Community School District Projects Are Part of Long-Term Plan

In 2017, Winkler Roofing crews re-roofed portions of two high schools and one elementary school. Shown here is an aerial photo of East High School. Photos: Mule-Hide Products Co. Inc.

For the Sioux City Community School District (SCCSD) in Sioux City, Iowa, the final dismissal bell of the school year marks more than the start of summer break for students and staff. It also signals the beginning of roofing season.

In addition to routine maintenance and repairs, each summer brings at least one major roofing project for the district and its 24 facilities. Existing roofs that have fallen out of warranty coverage are replaced. The district also has completed a steady stream of construction projects over the past 16 years, replacing aging schools to meet evolving needs.

District enrollment has increased by several hundred students over that timeframe and now stands at more than 14,500. SCCSD also has expanded its programming, creating specialty elementary schools focusing on STEM (science, technology, engineering and math), computer programming, environmental sciences, the arts, and dual-language education in English and Spanish. These specialties continue with middle school exploratory classes and eventually lead to the Sioux City Career Academy, which offers numerous education pathways to help students prepare for postsecondary education and careers.

Aerial view of West High School. Photos: Mule-Hide Products Co. Inc.

“Our facilities need to keep up with the curriculum and new technologies so we can provide the best possible learning environments for our students,” says SCCSD Director of Operations and Maintenance Brian Fahrendholz, adding that the facilities plan emphasizes both supporting student achievement and maintaining fiscal responsibility.

Winkler Roofing Inc. of Sioux City has been one of the district’s key partners in this process for more than 20 years, installing new or partial roofing systems on nearly every building in the district. The summer of 2017 saw its crews re-roof portions of two high schools and one elementary school, installing 335 squares of new TPO roof systems and removing 170 tons of ballast.

A crew of between six and nine professionals was on a jobsite at any given time. The three projects were completed in less than a month, beginning in late June and wrapping up in late July. And there was nothing on the punch list following the warranty inspections.

A Systematic Approach

In recent years, SCCSD has adopted a systematic, long-range-planning approach to roof system management, working with local architects to evaluate its facilities, identify and plan work that needs to be completed the following summer, and map out future projects. The three roofs replaced in 2017 were indicative of this approach.

TPO Bonding Adhesive is applied on the substrate and the back of TPO membrane. Photos: Mule-Hide Products Co. Inc.

Each of the roofs was between 15 and 20 years old and had begun to show signs of age. Their manufacturers’ warranties had also expired in recent years, making their replacement next up on the district’s roofing project schedule.

“We typically replace roofing systems within five years of the warranty expiration,” Fahrendholz explains. “It enables us to stay ahead of the maintenance issues that can begin cropping up.”

All three existing roofs had ballasted EPDM roofing systems. The re-roofing projects continued the district’s move toward TPO systems and, where possible, eliminating ballast. The three new roofing systems have 20-year, no-dollar-limit labor and material warranties.

SCCSD has several reasons for moving away from ballasted systems, according to Winkler Roofing President Jeff Winkler, P.E. In addition to reducing the roof’s weight and eliminating the cost of the ballast, unballasted roofs have a neater appearance and it is easier to monitor the membrane’s condition and find and repair any leaks. And, of course, when the time for re-roofing comes, there are no truckloads of ballast to remove and replace.

According to Winkler, SCCSD likes the durability of TPO membranes. “They like that the membrane is reinforced and that the seams are heat-welded, rather than seamed with primer and tape,” Winkler notes.

East High School Project

Re-roofing a 5,356-square-foot section at East High School entailed a complete tear-off of the existing ballasted EPDM roofing system and insulation down to the steel roof deck. The Winkler Roofing team then installed a new system topped with Mule-Hide TPO with CLEAN Film from Mule-Hide Products Co. It was the first time Winkler Roofing had installed the prodcut.

At East High School, polyisocyanurate insulation is installed using 3-inch galvalume plates and drill point fasteners. Photos: Mule-Hide Products Co. Inc.

Three layers of polyisocyanurate insulation were mechanically fastened with screws and plates to enhance the building’s energy efficiency. The 60-mil TPO membrane was then fully adhered using TPO Bonding Adhesive from Mule-Hide Products.

The last step in any well-done TPO project is removing the dirt and scuffs that are inevitably left behind during installation, notes Winkler. That step is eliminated with this product; the crew simply removes the protective film covering the membrane to reveal a clean roof that is ready for inspection.

“The material is more expensive than regular TPO membranes, but there is the potential to make up for that in reduced labor costs,” Winkler notes.

The biggest benefit would be seen on roofs that have fewer penetrations, according to Winkler. Installing the membrane around penetrations requires removing a portion of the protective film, he explains. Because those areas are then exposed to scuffs and dirt, crews must go back and clean them by hand.

West High School Project

Meticulous detail work was key to the successful replacement of a 18,056-square-foot section of the roof at West High School. There were nearly four dozen penetrations in the roof, from 4-inch pipes to HVAC equipment measuring 8 feet by 12 feet. Many of the chimney stacks also were in spots that were awkward for the crew to work around.

Winkler Roofing crew members prepare to install a TPO walkway pad. Photos: Mule-Hide Products Co. Inc.

It was all in a day’s work for the Winkler Roofing team. “The quality of our detail work is one of the things we take pride in,” Winkler says. “The keys are good leadership, both on and off the roof, and a well-seasoned crew. My foreman, Absalon Quezada, is a master of solving the toughest of details and coordinating a well-orchestrated crew.”

The roof’s existing concrete deck made a mechanically attached system uneconomical, so a new ballasted system was specified. The existing ballast had deteriorated to the point that, if reused, it could puncture the new roofing membrane. So, all 100 tons of it, along with the existing EPDM membrane, were removed and disposed of. The pieces of stainless steel cap metal along the perimeter were removed and numbered in sequence for reinstallation later. Sections of water-damaged insulation were removed and replaced.

An additional layer of polyisocyanurate insulation was loose-layered over the entire roof to improve energy efficiency, followed by a new loose-layered 60-mil white TPO membrane. New ballast was then installed.

Details such as this pipe boot were installed using a hot-air welder. Photos: Mule-Hide Products Co. Inc.

The crew navigated a challenging site while depositing the new ballast on the roof of the one-story building. The site offered only one feasible parking spot for the seven dump trucks that would deliver the rock, and that was on a lawn, just on the other side of two large trees. Crews carefully noted the location of sprinklers for the in-ground irrigation system to avoid driving over them, and shut the system down for several days in advance of the delivery to minimize ruts caused by the trucks’ tires. The trees’ trunks were spaced less than 20 feet apart and the canopies have grown together, leaving only small tunnel to feed the conveyor through. Crews kept the conveyor low as they extended it through the branches, then brought it to roof height by repeatedly raising it and the backing the truck up.

Riverside Elementary School Project

At Riverside Elementary School, a 7,314-square-foot section of roof was replaced with a 60-mil, fully attached TPO system.

The existing EPDM membrane, ballast and edge metal flashings were removed and disposed of. Crews removed and replaced any water-damaged insulation, added an additional layer of polyisocyanurate insulation throughout to increase the building’s energy efficiency, and mechanically attached the insulation to the steel roof deck using screws and plates. The white TPO membrane was then installed using bonding adhesive, and new edge metal flashings were added.

Straight A’s on the Report Card

The new roofs received top grades on their inspection report cards.

At East High School, crews installed Mule-Hide TPO with CLEAN Film from Mule-Hide Products Co. The last step in the installation process is removing the protective film covering the membrane. Photos: Mule-Hide Products Co. Inc.

When Mule-Hide Products Co. Territory Manager Jake Rowell inspected the roofs, there were no items on his, or the district’s, punch list. The only remaining task — which was completed during the inspection — was covering the seams on the West High School roof with ballast; they had intentionally been left exposed for easy inspection. In fact, that was the only “to-do list” item Rowell noted during inspections of 11 Winkler Roofing projects that week.

“The quality of their work is phenomenal,” Rowell says. “The crews take pride in their work. They don’t just throw a project together and move on. They check their work to make sure it’s done right before I see it and before the customer sees it.”

THE TEAM

Roofing Contractor: Winkler Roofing Inc., Sioux City, Iowa
Architect: FEH DESIGN, Sioux City, Iowa, www.fehdesign.com
Roofing Materials Distributor: ABC Supply Co. Inc., www.abcsupply.com
Decorative Sheet Metal: Interstate Mechanical Corp., Sioux City, Iowa, www.interstatemechanicalcorp.com

MATERIALS

TPO Membrane Roof Systems: Mule-Hide Products Co. Inc., www.mulehide.com

Zinc Tiles Make Roof the Focal Point of Historic Residential Renovation

Originally built in 1853, this historic residence was recently renovated. The 1,870-square-foot cottage was designed to offer a highly contemporary flair while retaining many of its historic elements. Photos: RHEINZINK

Prior to its near-total reconstruction, the Jett Residence was an overgrown structure hidden in a grove of trees in Iowa City, Iowa. The strikingly renovated cottage now serves as a retreat house for its owners. Originally built in 1853, the residence retains a significant portion of the original, locally made red brick. An original, vaulted stone root cellar — rumored to have been part of the Underground Railroad — also remains on the property.

The owners were deeply involved in working with Neumann Monson Architects, Iowa City, in planning the renovation, according to co-owner Bobby Jett. The interior design of the 1,870-square-foot cottage offers a highly contemporary flair within the historic setting.

The most prominent feature of the exterior is the roof. “Everyone loves the roof,” Jett says. “They’ve never seen anything like it.” Approximately 2,500 square feet of RHEINZINK Square Tiles were utilized. The 0.8mm prePATINA blue-grey Square Tiles were installed in a diamond pattern.

The selection of the tiles was inspired by an old black and white photo of the house taken more half a century ago. “At that time, the roof of the house had diamond-shaped shingles. We wanted to replicate that look,” notes Jett. “The architect suggested that RHEINZINK could provide the look and durability we wanted.”

“We definitely wanted to replicate the roof’s visual pattern that we saw in the old photo but obviously wanted it to have more permanence and durability,” says Tim Schroeder, vice president at Neumann Monson Architects. “We’ve worked with zinc before and thought it would be a good complement to the dormers that would provide a nice crisp appearance. The RHEINZINK was definitely a nod to the historic element but provided a progressive look as well.”

Fabrication of the Square Tiles was done by RHEINZINK systems partner Sheet Metal Supply (SMS), headquartered in Mundelein, Illinois.

The restored roof is comprised of approximately 2,500 square feet of RHEINZINK Square Tiles, which were installed in a diamond pattern. Photos: RHEINZINK

Installation of the RHEINZINK Square Tiles was performed by Natural Metal Associates, Mont Vernon, New Hampshire. The owner of Natural Metal Associates, Lou Rondeau, has extensive hands-on experience with zinc fabrication methods and techniques. “I knew this was a unique project and I really wanted to be a part of it,” Rondeau notes. Rondeau was accompanied by an apprentice and personally did the hand-cutting and folding associated with detailing the valleys and edges. The work also included installation of the RHEINZINK half-round 5 ½-inch gutter system.

The installation was completed in nine days, according to Rondeau. “Zinc is a premium material that’s a real pleasure to work with,” he says.

TEAM

Architect: Neumann Monson Architects, Iowa City, Iowa, www.neumannmonson.com
Metal Fabricator: Sheet Metal Supply (SMS), Mundelein, Illinois, www.sheetmetalsupplyltd.com
Metal Roof Manufacturer: RHEINZINK, Woburn, Massachusetts, www.rheinzink.us
Roofing Contractor: Natural Metal Associates, Mont Vernon, New Hampshire, www.facebook.com/Natural-Metals-Associates-228362561021655/