During the repair and restoration of existing buildings and structures, problems of soil instability often arise, which can lead to deformations and destruction of structures. To solve these problems, various methods of soil reinforcement are used, among which polymer and cement reinforcement occupy a special place.
• Complex solution to problems: Polymer reinforcement is able to improve the mechanical properties of the soil, while cement reinforcement ensures its stability and strength. A combined approach allows you to solve not only one, but also several problems at the same time.
• Adaptability to different conditions: Combined soil reinforcement allows adaptation to different soil types and repair conditions. This is especially important in the case of mixed soil types or the presence of waterproof layers.
• Economic benefit: Combined soil reinforcement allows to reduce the cost of repair and restoration, ensuring the durability of the foundations. This leads to a reduction in costs for further repair and maintenance of buildings and structures.
• Reduction of work time: Polymer and cement soil strengthening are characterized by high speed of work. The use of a combined approach allows you to reduce the time of repair and restoration, which is especially important in the case of limited deadlines and problems with the operation of the facility.
Injection strengthening and consolidation of soils
Let’s consider the most common manifestations of soil problems
Risks and Inconveniences: Land subsidence leads to uneven subsidence of building foundations, which can cause deformation and damage to structures. This creates not only aesthetic problems, but also a threat to the safety of the building and its residents.
Solution: Polymer and cement soil reinforcement increases the bearing capacity of the soil and reduces the probability of subsidence, ensuring the stability and durability of foundations and supporting structures.
Risks and Inconveniences: Aquifers can cause additional problems, such as increased soil moisture, which can reduce the strength and stability of foundations.
Solution: Polymer soil reinforcement contributes to the creation of a waterproofing layer that reduces the penetration of water into the soil. Cement reinforcement also reduces the water permeability of the soil, which increases its resistance to wet conditions.
Risks and Inconveniences: Weakening of the soil's bearing capacity can lead to deformations and destruction of structures, especially under additional loads or external factors.
Solution: Polymer and cement reinforcement of the soil increases the strength and stability of the soil, improving its bearing capacity and preventing possible deformations and destruction.
Polymer strengthening of soils
Polymer soil reinforcement is the process of introducing polymeric materials into the soil to improve its mechanical properties. This method allows you to increase the bearing capacity of the soil, improve its resistance to deformations and reduce the probability of subsidence. The use of polymer materials ensures environmental cleanliness of the process and high speed of work.
Cement strengthening of soils
Cement strengthening of soils is based on the addition of cement to the soil followed by compaction and hardening of the mixture. This method is used to strengthen not only weak, but also water-saturated soils. Cementing increases the strength of the soil, reduces its water permeability and provides resistance to deformations.
The uniqueness of the combination of polymer and cement reinforcement
Each of these methods has its advantages, but the combination of polymer and cement soil reinforcement offers unique opportunities to solve a wide range of problems faced by owners and users of existing buildings and structures.
Our advantages
Conclusion
Polymer and cement soil reinforcement are effective methods of repairing and restoring the foundations of existing buildings and structures. Their combination provides unique opportunities for solving various soil problems, reducing costs and reducing repair time. When choosing a method of strengthening the foundations, it is important to take into account the specific repair conditions and the requirements for the final result to ensure the reliability and durability of the structures.
Our cooperation involves the following stages
