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You’ve probably stumbled across uneven concrete slabs in your neighborhood. This is a common problem, especially if the concrete slabs are placed over soft ground. Fixing this issue isn’t as complex it may seem because replacement isn’t the only option.
You’ve probably stumbled across uneven concrete slabs in your neighborhood. This is a common problem, especially if the concrete slabs are placed over soft ground. Fixing this issue isn’t as complex it may seem because replacement isn’t the only option. Concrete raising with polyurethane foam jacking a cheaper option as opposed to replacing concrete. One of the ways concrete is raised is by using polyurethane foam, a foam that expands instantly.
Another crucial aspect of concrete raising is soil load-bearing capacity. If the soils are weak or unconsolidated the weight-bearing ability of foam polyurethane isn’t effectively distributed into the ground. This is due to the fact that the soil, if not densified, will inevitably slip under the weight of the concrete. This, in turn, causes the concrete to become uneven once again. If soil densification is determined to be a necessary process, it’ll look something like this:
A lengthy inspection will be done to determine where the injections must be done in order to effectively densify the soil. A large 3-5ft square grid pattern will be laid out where the injections will be done at multiple depths.
The initial injections are completed at the top level in order to condense and strengthen the soil and use the concrete slab as a way of consolidating the top layers for the lower injections to work against.
The remaining injections are shot from the top-down, with each lower layer having the capability to densify against the denser top layers. This strengthens the overall weight-bearing ability and ensures that the slab will not slip back down by consolidating the lower soils over time.
There are two main types of foams that are used for concrete raising. The reactivity and density of the foam need to be determined before moving on with the concrete raising process. Here’s a guide to the two factors that come into play:
A foam that reacts slowly is typically used when a large void needs to be filled. The foam will spread evenly and thicker, allowing for more coverage. A foam that reacts quickly won’t spread evenly and won’t have the same amount of spread that is offered with a slow reaction. Having control allows the workers to ensure that the slab isn’t raised too much and lines up precisely with the other slab. This ensures the success of the concrete raising process.
A foam that is much denser will be used if a larger weight needs to be born. If the slab doesn’t weigh as much and the void is large, a foam with a lower density will be used to fill in the void easier. Density is important to keep in mind as this determines the success of the operation and whether or not the polyurethane will be able to hold the weight of the concrete slab.
In short, though concrete raising is based around the environment, there is a basic process to it. Because polyurethane can be used to lift concrete in almost any area including foundation, sidewalks, driveways, steps, garages, pool decks, etc. it’s important to gauge the environment and reasons why the concrete slabs are uneven to begin with. This information will determine what kind of polyurethane will be used and what style of injection will be done. Slow reaction polyurethane is typically used for large voids to increase the spread and ensure an even rise. Density is also a factor that will be determined based on how much weight the polyurethane needs to bear. Polyurethane jacking is the most effective form of concrete raising and is far superior to replacing concrete altogether.