Summer Means a Crash Course in School Re-Roofing Projects

Strober-Wright Roofing executed a completed a tear-off and re-roof of the entire complex of Montgomery Lower Middle School. Approximately 130,000 square feet of roofing was removed and replaced with a two-ply modified bitumen system.

Strober-Wright Roofing executed a completed a tear-off and re-roof of the entire complex of Montgomery Lower Middle School. Approximately 130,000 square feet of roofing was removed and replaced with a two-ply modified bitumen system.

Summertime is the busy season for school construction projects, and as students prepare for vacation, restoration work heats up. At Strober-Wright Roofing Inc., a full-service roofing contractor headquartered in Lambertville, N.J., going to school in the summer is a big part of the company’s business plan.

The company is owned by Mike Strober, Mark Wright and John Foy, who share more than 100 years of experience in new construction, additions and re-roofing projects. “We specialize in schools,” says Robert Shoemaker, an estimator with Strober-Wright, who points to attention to detail as the key to succeeding in the competitive bidding market. “You have to sharpen your pencil. You have to understand what your crews can do and how fast they can do it. You have to know what their skills are.”

Mark Wright has been with the company 26 years, and he points to a recently completed project at Montgomery Lower Middle School in Skillman, N.J., as an example of just what Strober-Wright can do when faced with large-scale projects and tight deadlines. “We have the men and equipment to get these types of jobs done on time with high-quality workmanship,” he says. “That’s our strength.”

Wright and Shoemaker believe building relationships is essential in this segment of the market. “We’ve done a lot of schools,” Shoemaker says. “When our bid is successful, people breathe a sigh of relief and tell us they are happy to have us on their projects.”

The Roof System

The Montgomery Lower Middle School project was a complete tear-off and re-roof of a school complex encompassing several connected roof sections totaling approximately 130,000 square feet. There were two types of existing roof systems: a fully-adhered EPDM system and a ballasted EPDM system. These were torn off and replaced with a two-ply, hot-mopped modified bitumen system.

Tapered polyiso was installed to ensure proper slope to the drains, which were surrounded by an 8-foot tapered sump.

Tapered polyiso was installed to ensure proper slope to the drains, which were surrounded by an 8-foot tapered sump.


The Strober-Wright team looked for ways to make the installation as efficient as possible in order to meet the deadline. The original specification called for removing and replacing more than 100 existing roof drains, but the company suggested using SpeedTite drains from OMG Roofing Products instead.

“My partner, Mike Strober, came up with the idea to use the OMG drains, and we submitted it to the architect,” Wright notes. “The architect approved them. The key with these drains is you don’t need another trade to install them. They install quickly and minimize disturbance in the building because the drains drop into the pipe, bypassing the bowl. You don’t have to take the old bowl out and put a new bowl in. You don’t have to take ceiling tiles out and create a mess inside the building.”

Show Your Work

On the ballasted roof sections, the stones were removed by Adler Vacuum. Then the existing EPDM roof was removed in sections. “We’d take a section out and replace it the same day so the building was watertight every night,” Wright explains.

At the end of each day, the old system was tied off to the new section. “With the existing rubber roof, we would leave a little extra material and flop it back,” Wright notes. “We’d adhere the flap using hot tar to the new system, and just peel it back the next day and go again.”

On sections of the roof with metal decking, the 4-inch base layer of flat polyiso insulation was mechanically attached with fasteners and plates. On the sections with concrete deck, the concrete was primed with a quick-drying asphalt primer and the base insulation was then adhered in hot asphalt. The tapered insulation was then adhered in hot asphalt to ensure proper drainage.

After the cover board was secured, the modified bitumen system was installed. The base ply and cap sheet were set in hot asphalt. Once the roof system had properly cured, it received two coats of an aluminum reflective coating.

Safety is always top of mind, but there were no unusual safety issues on the project, notes Wright. “We followed our standard safety protocols,” he says. “You have to make sure you’re wearing proper clothing and safety equipment with hot asphalt. We set up a safety perimeter warning with flags. If you were outside the perimeter, you had to wear a harness and be tied off at all times.”

Going With the Flow

More than 100 new drains were installed. The existing strainer domes, clamping rings and hardware were removed, but the drain bowls were left in place. The SpeedTite Drains were inserted, and the mechanical seal was tightened to provide a secure connection to the existing drain leader.

According to the manufacturer, the drains have a built-in vortex breaker to help improve water flow and a mechanical seal that meets the ANSI/SPRI/RD-1 standard (holding a 10-foot column of water for 24 hours without leaking).

More than 100 drains had to be replaced on the school. Strober-Wright suggested using OMG SpeedTite drains, as they could be installed more efficiently than conventional drain replacement and caused less disruption in the building.

More than 100 drains had to be replaced on the school. Strober-Wright suggested using OMG SpeedTite drains, as they could be installed more efficiently than conventional drain replacement and caused less disruption in the building.


After the drains were flashed in, the clamping ring and strainer dome were installed. “The drains are flashed with the base ply and then a piece of the cap sheet over that, so it’s a two-ply flashing system,” notes Wright. “The architect here specified an 8-foot tapered sump, and that’s a nice thing because you have an 8-foot area around the drain that’s really going to flow. It works really well.”

A Tough Schedule

Work on the project began in late June and was completed in late August, just in time for the school year to begin. Crews averaged 12 people and completed approximately 50 squares of roof per day.

According to Wright, the toughest part of the project was the tight schedule, which was made even more difficult due to inclement weather. “It was a wet summer,” he says. “It seemed like we were constantly battling rain, and we had to make sure we didn’t get behind the eight-ball on the schedule. You can’t work when it’s raining. You have to just batten down the hatches and prepare to get started the next day.”

After the drains were flashed in, the clamping ring and strainer dome were installed. The drains feature an internal vortex breaker.

After the drains were flashed in, the clamping ring and strainer dome were installed. The drains feature an internal vortex breaker.

The company followed the weather report closely to plan each day’s production. “We have a weather company out of Hackettstown we use called Weatherworks,” Wright says. “When it comes to the weather—up to the minute, 24 hours a day—they are on top of it. They deal with nothing but New Jersey weather. We pay for the service, but it’s well worth it. Saving one day’s worth of work can pay for the whole year’s subscription.”

Despite the weather, work was completed on time and on budget. The project achieved the priorities the school system wanted: a durable, energy-efficient roof system with a 25-year warranty. “It’s a great system,” Wright states. “We make our bread and butter on these jobs. We hit our deadline, and now it’s on to the next one.”

TEAM

Architect: Parette Somjen Architect LLC, Rockaway, N.J., Planetpsa.com
Roofing Contractor: Strober-Wright Roofing Inc., Lambertville, N.J., Stroberwright.com

Photos: OMG Roofing Products Inc.

New Roof and Building Upgrades Provide Security for Florida Day Care Center

The Joseph Caleb Center

The Joseph Caleb Center received a building envelope upgrade that included a new modified bitumen roof for the low-slope sections and a new standing seam metal roof on steep-slope sections at the perimeter. Photos: Polyglass USA Inc.

The Joseph Caleb Center in Miami caters to a very young clientele, but the building housing the early childhood education center was definitely showing its age. The existing roof was failing, the concrete walls were cracked, and the window seals were broken. The restoration project was a complicated one, with several roof and wall systems that had to be tied in together. Luckily, that’s just the type of project Errol Portuondo likes. Portuondo is the owner of Florida Building & Supply in Miami, which focuses primarily on commercial restoration and re-roofing projects. The company restored the building, topping it with a new self-adhered, modified bitumen roof system and crowning it with a standing seam metal roof around the perimeter.

“We handle the whole envelope,” Portuondo notes. “That’s what sets us apart. That’s our niche. We like to go into these projects that have four, five, six items—the kind of projects other companies avoid. Most people like to handle the easy stuff—get in and get out. We like to tackle the harder type projects that require a lot of thinking.”

Complicated Scope of Work

The project required a roof system that was Energy Star rated and would comply with South Florida’s requirements for high velocity hurricane zones. Furthermore, the building would remain open during the roofing installation process, so the roof system could not give off any fumes or volatile organic compounds (VOCs). A self-adhered modified bitumen roof system from Polyglass USA Inc. was chosen for the flat roof sections because of its high reflectivity, durability, and ease of installation, as well as the lack of any odor.

The existing roof consisted of a mechanically attached modified system surrounded by a standing seam metal roof. Florida Building & Supply first removed the metal roof system, as it partially covered the flat roof. After the steep-slope sections were dried in with 30-pound felt and Englert MetalMan HT self-adhered underlayment, crews began to tear off the old modified system. Everything was removed down to the lightweight insulating concrete (LWIC) that had been installed over the metal deck.

The day care center

The day care center was open during the restoration project, so the safety plan included moving the children’s playground during the roof installation. Photos: Polyglass USA Inc.

The specification called for adhering polyiso insulation directly to the lightweight with OlyBond 500 adhesive from OMG Roofing Products, so making sure the LWIC was in good shape was crucial. Core samples were taken of the roof and subjected to a series of adhesion and compression tests required by the county. “We passed all of the tests and got all of the approvals regarding the lightweight, and we installed the insulation and the Polyglass system on top of that,” Portuondo says. “We like using that system because it is easy to install and allows us to salvage the lightweight. It also gives you really great uplift resistance.”

Crews installed tapered polyiso insulation manufactured by Hunter Panels to a custom-designed layout provided by ABC Supply Co. Insulation ranged in thickness from more than 5 inches to a minimum of 1 ½ inches. After the existing roof system was removed, Portuondo realized that the deck could not be penetrated without potentially damaging the structure, affecting the placement of emergency overflows. “Some of the existing buildings weren’t designed like they are today, so you have to work with the existing drains and make sure you can take care of the water through emergency overflows if any drains should get clogged,” he says.

After the insulation was installed, the 20,000-square-foot low-slope section was ready for the Polyglass three-ply, self-adhered modified bitumen roof system. Elastoflex SA V, a self-adhered SBS modified bitumen membrane, was used for the base and interply sheets. The surface layer consisted of Polyfresko G SA, a white, self-adhered APP modified bitumen cap sheet manufactured with CURE Technology, a thin-film technology designed to improve the membrane’s durability, UV and stain resistance, and granule adhesion.

“What we like about the self-adhered system is that you can move on the roof quick and clean,” Portuondo says. “Sometimes the intake of the mechanical units is up on the roof, and with a hot asphalt application, you have to be careful with any fumes. That’s not a consideration with the self-adhered system. It’s very clean and very fast, especially if you are about to get a rainstorm. You can get a barrier installed very quickly on the roof as opposed to hot asphalt or a torch system.”

Details, Details

Once the new low-slope roof was installed, work began on the new standing seam metal roof manufactured by Englert. Tying in the metal roof with the modified roof was relatively easy, according to Portuondo, but other details were more problematic.

The last steps included perimeter metal trim and gutters. “We work closely with the manufacturers based on their inspection process and when there are certain details,” notes Portuondo. “In this specific project, there were a lot of details.”

Waterproofing the skylights

Waterproofing the skylights was tricky, as the glass extended under the metal roof and ended just a few inches from the new modified bitumen roof system. In these sections, Polyflash 2C, an odor free, fluid-applied flashing system from Polyglass, was used. Photos: Polyglass USA Inc.

Florida Building & Supply also handled repairing and painting the perimeter of the building. Hairline fractures in the concrete block walls were repaired with epoxy injections prior to painting. Crews also re-caulked and waterproofed all of the windows and skylights, including glass walls that extended under the metal roof at the top and ended at the bottom just a few inches from the modified roof system.

“That tie-in was very difficult because by the time you ended your base flashings for the modified, you were right at the glazing,” Portuondo says. “For those areas, the only solution was the Polyglass Polyflash 2C kit.” Polyflash 2C is an odor free, fluid-applied flashing system that is UV-stable.

Setting up the plan of attack in advance was crucial, notes Portuondo, but with any older building, you have to be ready to adapt as the job progresses. “You don’t really know structurally what you’re going to run into until you start to tear off,” he says. “Sometimes what you find under the roof turns out to be different than you expected, and you have to make changes in the field.”

Safety is always the top concern for both employees and members of the public, notes Portuondo. “We moved the playground area and set up a safety perimeter fence,” he explains. “We made sure the children would not be harmed while we were installing the roof, so that was a logistical problem.”

The company is used to overcoming logistical problems. “Our forte is re-roofing existing buildings, and so they are always active,” he says. “We strive to do quality work and stay on top of everything. We’ve just been doing this for so long that we know what we’re doing.”