Strengthening foundations and floors in warehouses and logistics centres
24/7 non-stop. This is possible with GeoResin!
We lift and strengthen foundations and floors (slab structures) without a need to stop the warehouse operation and dismantle warehouse equipment: as quickly, economically and reliably as possible.Task number 1, which is always the default one for the company's employees, is to minimize the inconvenience of performing operations while object being restored. GeoResin methods are the set of technologies and operations for filling voids and lifting slabs, which are carried out and completed most often at night out of the normal trading hours of the tenant or owner.
Frequent clients of the company are retail companies within 5 continents where GeoResin is present. If a store or warehouse is experiencing significant inconvenience due to uneven floor or its instability due to sagging soil over time or a man-made accident, the company's specialists will solve this problem in a safe and convenient way. A typical object is a room with concrete floor slabs 100-150 mm thick and uneven slabs over more than 800 m2 of warehouse or retail space. A typical solution before inviting a GeoResin contractor in many regions is to place metal plates under deformable structures. The average drawdown on objects is up to 76 mm from the surface. Sagging leads to shelves or storage cells becoming uneven and unsuitable for storage or other use, and otherwise it is simply dangerous for employees or customers. That is, the room must be closed and reconstructed to meet the standards of life safety. This is why it is so important to level the floor first to allow the business to make money, and not lose it in down-time. The requirement for the security and efficiency of the solution as itself is not removed.
GeoResin uses its own researches in the design of solutions and materials in particular Deep Lifting and Floor lifting technologies for injecting geopolymer resins of different properties and characteristics. Typical projects are successfully completed on average 4 times faster than traditional methods and 1.5-2 times cheaper if takes into account full costs.
The weakening of foundation soils and floor slabs is mainly caused by the following factors:
- Poorly compacted soil
- Extra loads
- Technogenic breakdowns and accidents of engineering communications
- Regular moisture and temperature fluctuations
- Earth or pile work nearby
- Impact of regular vibrations
- Biological processes in the soil of the base
- Heterogeneous soil under one building
Questions answered by GeoResin:
- What happens to a building or structure in general?
- What caused cracks or displacement of structures?
- Does it make sense to wait for improvements or changes, and what?
- Is it possible to do cosmetic repairs and for how long?
- What happens if you do nothing and in what time frame?
- Will and what specific "shop-or-do-it-yourself" solutions help?
- Will the "familiar foreman" be able to resolve the issue?
- Is it possible and how to slow down or stop the process of destruction?
- Is it possible to return everything as it was? What are the options?
- When is it better and cheaper to start solving? Is it possible not right away?
- How much does it cost to resolve the issue and what are the conditions for implementation?
- What can be done for X rubles?
In a residential building, a floor slab sank after a pipe burst
Reinforcement of base soils and re-leveling of floor slab
Technological excessive subsidence of a building columns
Stopping subsidence and increasing the load-bearing capacity of the pile foundation
Eroding the foundation of the supporting columns
Strengthening the foundation foundation without disrupting the entire project schedule
Weak watered soils and unsuccessful attempt to stabilize
Reinforcement of soils at the base of slab foundations
Cracks on load-bearing walls, incl. on window and doorways
Reinforcement of foundation soils, filling of voids
Cracks on the inner sides of the walls of the basement room
Strengthening and consolidation of soils of the base of foundations
Local floor subsidence
Reinforcement of base soils and leveling of the floor slab
Internal load-bearing columns have undergone settlement
Stopping uneven settlement of column foundations
Tank bottom subsidence
Reinforcement and leveling of the steel bottom
Deformations and cracks of supporting structures
Reinforcement of soils of foundations
Erection of a new curtain wall on the existing foundation
Strengthening and sloughing of soils of the base of the foundation
Draft of the structure with non-standard heel
Aligning the tank structure
Strengthening the foundation soil and stabilizing the foundation
Strengthening the foundation soil and stabilizing the foundation
Draft of one of the corners of the building
Raising and leveling the foundation slab in the horizon
Ragged horizontal cracks began to appear and develop
Reinforcement of foundation soils and filling of voids
Erosion under the floor and foundations
Stabilizing piles and leveling the foundation slab
The back of the house began to sag. Cracks appeared on the walls and ceiling
Strengthening and lifting load-bearing structures quickly and safely
Re-leveling of industrial structures
Alignment in the plane of structures of foundations and equipment
Insufficient bearing capacity of base soils
Reinforcement of base soils and leveling of the floor slab
Washing out some of the soil and damage to floor slabs
Reinforcement and local leveling of floor slabs
Uneven settlement of a building after a pipe break
Strengthening the soils of the base of the strip foundation
Negative effects of dynamic loads on foundations and floor slabs
Reinforcement of foundation soils and leveling of foundations and floors
The room sagged due to a weak soil base
Strengthening the base and leveling sagging structures
Reinforcement of foundation soils and stabilization of the foundation
Reinforcement of foundation soils and stabilization of the foundation
Cracks in the walls with development in time
Reinforcement of foundation soils and lifting of structures
Cracks in load-bearing walls
Repair and restoration work with soil and bearing structures
Some of the column foundations have undergone uneven settlement
Stopping uneven settlement of column foundations
The method of reinforcement proposed by the prescription did not suit the customer
Strengthening the base and vertical lifting of sagging structures
Lack of bearing capacity of the base
Securing soils under floors in places where racks are installed
Progressive uneven settlement of the foundation with a heel
Strengthening the foundation soil and leveling the building
Soil leaching and significant settlement of floors and foundations
Reinforcement of soils of the base of foundations, lifting and leveling the floor slab
A void has formed under the foundation slab
Reconstruction of the foundation slab support
Uneven settlement of the floor slab and the foundation of the landing stage
Leveling the floor slab and lifting sagging foundation elements
Deformations of barbecue area structures
Filling and leveling the foundation
Uneven settlement of load-bearing columns
Stopping sedimentary processes
Uneven settlement of foundations with deformations
Reinforcement of the foundation soils, recommendations for drainage are given
Drawdown of road maps of the ring road
Aligning the plane of the road while maintaining the "slope"
Local subsidence of the floor of the room
Reinforcement of base soils and leveling of the floor slab
Uneven draft on average 45 mm
Compaction of the base and return of structures to their previous level
Building roll problem
Reinforcement of the base and alignment of the roll
A void has formed under the foundation slab
Recreating the support of the foundation slab on the base
Sagging corner of the house and a crack along the body of the foundation
Deformation stabilization
Excessive uneven settlement of foundations
Reinforcement of the foundation and lifting of settled foundations
Insufficient bearing capacity of watered base soils
Increasing the bearing capacity of the base and foundations
Deflection of the floor slab and the appearance of cracks on load-bearing walls
Reinforcement, filling and leveling of floor slabs
Defects in overhead structures from frost heaving in soils
Strengthening the base soils with the elimination of heaving properties
Uneven house draft during renovation
Providing support for foundations with alignment of structures
Cracks in load-bearing walls both inside and outside the house
The load-bearing structures have been reinforced and raised to a predetermined level
Deformation of crane runways of the Crane-Stacker
Alignment of crane rails
Unstable foundation and settlement of load-bearing structures
Stopping the processes of settling foundations
The foundation has settled with deformations reflected on the floor slabs
Stopping the processes of settling foundations and leveling the working surface of the floor slabs
Uneven settlement of foundations with cracking
Soil hardening at the base of foundations
Subsidence of the slab and the appearance of a longitudinal crack
Compaction of the soil with filling the gap under the 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
Instability of floor slabs and local subsidence
Stabilization of base soils and leveling of floor slabs
Deformations and settlements of asphalt concrete pavement
Reinforcement of foundation soils to a depth of - 5.5m
Uneven settling of the floor slab
Stabilization and lifting of reinforced concrete floor slabs
Floor subsidence occurred inside the warehouse
Restoration of the design levels of the floor and shelving in the premises
Deformations in the masonry at the outer wall section
Strengthening the soil at the base of the foundation with its rise
Deformation of reinforced concrete floor slabs under new equipment
Restoration of the bearing capacity of reinforced concrete floor slabs in places of deformation
Deformations in supporting structures
Soil stabilization of foundations
Uneven subsidence of the floor and the formation of voids under it
Restoration of the design level of the floor
Sagging corner and crack in the outer cladding
Consolidation and strengthening of soil at the base of foundations
- Almost instant results
- Selection and determination of a suitable solution together with the client
- Only top brands of equipment and tools
- Possibility of phased implementation of the project according to the schedule required by the client
- Post-project monitoring and efficiency, if necessary, improvements. 24/7 communication
- Parallel improvement of the characteristics of hydro, thermal and vibration insulation of structures
Efficiency and effectiveness
Extended minimum warranty terms
days
Fantastic productivity and speed
Quick material curing time
Accuracy at every stage of works
