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NYC Building Fills Voids Beneath Slab with Geotech Polyurethane
Print Article Contributed by BSM Staff

RICHMOND, VA -- A city-mandated inspection of a 12-story, 100-year-old co-op building near Madison Square Garden and Penn Station in New York City led to the use of geotechnical polyurethane foam to level slabs that have settled and eroded below the structure.

During a Local Law 11 inspection of the exterior the building, the owner suggested to DPC General Contractors, which specializes in environmental services, that as long as they were there they might want to inspect some floors inside the building that had dropped more than an inch.

A DPC engineer immediately recognized the problem was from voids in the earth beneath the slab formed from the weight of the building settling on the alluvial riverbed soil made up of fine silt and sediment, and back-fill from a previous building.

He recommended the use of a relatively newer geotechnical product to fill the voids and level the slab: lightweight polyurethane foam.

“Settlement and consolidation are typical in urban areas," said Kirk Roberts, chief estimator for CJGeo, a Virginia company that performed the work. "Second and third generation buildings in Manhattan were often constructed over poorly-placed fills used to cover previous structures. Over time, the back-fill consolidates, or surface material erodes into underlying rubble, which can cause large voids below slab-on-grade floors inside of buildings."

Roberts said the engineer’s choice of geotechnical polyurethane foam (GPF) was the right call.

“GPF is simpler to apply, cleaner, takes less time, and is lighter so it doesn’t add weight to the soil we’re repairing. If we’d used the old mud slurry method, it would have added at least 450-lbs per square foot to the soil around it and that’s just asking for more settlement.”

CJGeo has years of experience using lightweight GPF for void filling, soil stabilization, concrete slab lifting and leveling, and foundation repair. It has completed work on the National Mall in DC, historic tunnels in Pennsylvania, a constantly wet produce warehouse floor in South Carolina, a nuclear plant in New Jersey, and hundreds of points in between.

In New York, the company drilled a series of exploratory holes in the building’s slab and discovered the cavity measured 2.5 to 3-foot. “The void was under the entire slab which must have been held up by magic,” said Roberts

One major challenge was the location of the work area. “We couldn’t get in a large rig, but heck it’s New York, what are you going to do? We had enough room to park a small box truck some distance away and run small hoses to the site. That’s another benefit of GPF, the footprint of using it is so much smaller and less intrusive, we were able to keep the building open while we worked.”

CJGeo drilled small 5/8-inch holes in the slab then pumped in a low-exotherm GPF [lower degree of heat generated from the exothermic chemical reaction of the foam] called TerraThane from the US company NCFI.

“We needed to keep the heat low in the space, so we chose NCFI’s TerraThane. It’s the only low-exotherm foam we choose for three-foot lifts. It’s the highest quality, most consistent product out there and NCFI guarantees the PSI value of the foam when no one else does that. They are unquestionably the experts on plural-component foam,” said Roberts.

CJGeo completed the job in two days as the building occupants continued their work and lives without interruption. “We used a floodlight to watch the TerraThane foam creep into every crack and crevice as it filled the large void then cured in place to become monolithic with the surrounding soil. The GC really enjoyed the time-lapse GoPro footage of the foam working in the void, and were equally pleased with the quick, efficient results.”

NCFI, headquartered in Mt. Airy, NC since 1964, manufactures polyurethane foam chemical systems for spray foam-in-place insulation (SPF), geotechnical, agricultural, roofing, marine floatation, packaging, specialty molding, and many other uses.

To learn more about NCFI, go to www.NCFI.com.  











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