Restoring the reliable condition of structures affected by serious problems, such as loosening, poor compaction during construction, or overloading of structures, has been and still is a complex process. Weak ground (weak foundation soil) can endanger the safe condition of floors, foundations, and other supporting elements of buildings and structures, exposing structures to the risk of damage and collapse. Currently available solutions to improve the soil condition of the base are limited, highly invasive (interfering directly with the structure elements), expensive, time-consuming and dirty. If landscaping (or restoration) work requires the building tenant to move, then suspending the business may add additional losses for both the business operator and the business tenant's company. Now there is a relatively new alternative. After many years of extensive research and testing, GeoResin has designed a non-invasive method for fixing the bases (without interfering with structures or supporting elements). This method strengthens the base from the inside and consolidating the unstructured particals.
The solution uses a combination of several properties of geopolymer resins for soil restoration. The method is applicable both to eliminate the vulnerability of the underlying soil layers, and can be applied under existing structures at a depth of up to 9 meters. There are also separately developed resins for use directly in soil while preparation for new construction.
When applied under existing structures, the technology for improving (strengthening) the soil and eliminating the consequences of loosening or expanding the base soil (clay), reduces porosity, pre-stresses the supporting structures (foundations, floors) and helps to return the real estate asset to a reliable working condition. This new approach to restoring structures and their foundations can help preserve existing buildings and infrastructure as a whole, even in the cramped conditions of dense environment. This is a worthy alternative to expensive demolition and invasive restoration.
Efficiency and effectiveness
Extended minimum warranty terms
Fantastic productivity and speed
Quick material curing time
Accuracy at every stage of works
Technological excessive subsidence of a building columns
Stopping subsidence and increasing the load-bearing capacity of the pile foundation
In a residential building, a floor slab sank after a pipe burst
Reinforcement of base soils and re-leveling of floor slab
Leakage of the retaining wall of the entrance to the underground garage
Compaction of soils and plugging of leaks in the retaining wall structure
Eroding the foundation of the supporting columns
Strengthening the foundation foundation without disrupting the entire project schedule
Reinforcement of foundation soils and stabilization of the foundation
Reinforcement of foundation soils and stabilization of the foundation
Strengthening the foundation soil and stabilizing the foundation
Strengthening the foundation soil and stabilizing the foundation
The room sagged due to a weak soil base
Strengthening the base and leveling sagging structures
Subsidence of the slab and the appearance of a longitudinal crack
Compaction of the soil with filling the gap under the slab
