Designing in geotechnics is a complex and creative process based on the results of geotechnical research. This discipline includes a thorough analysis of the bearing capacity of the soil, careful selection of optimal foundations and structures, as well as the application of innovative methods to improve the geotechnical properties of the terrain. The goal is to ensure the long-term stability and safety of buildings, which contributes to the sustainable development and functionality of construction solutions. As part of this process, conceptual, main and executive projects are created, together with projects of the completed state, which enables a comprehensive approach and detailed planning of all phases of construction.
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Creation of conceptual, main and implementation projects, as well as projects of the derived state
Based on detailed geotechnical analyses, we create all types of project documentation - from conceptual solutions to implementation projects and documentation of the derived state. These projects include all phases of the development of geotechnical interventions, with the aim of ensuring the stability and safety of construction facilities. -
Soil improvement by deep vibratory compaction (gravel columns)
This technique uses vibratory compaction to increase the bearing capacity of the soil, whereby gravel columns are embedded in the soil. Such soil improvements enable stabilization for the construction of buildings on weak or unstable foundations. -
Protection of construction pits (jet grouting, AB piles, micropiles, anchors, talps, diaphragms)
Depending on the conditions on the ground, we use different methods of protection of construction pits, such as jet grouting (jet injection), AB piles, micropiles, anchoring, steel talps and diaphragms. These techniques prevent the collapse of soil and groundwater during construction in depth. -
Slope rehabilitation and landslide rehabilitation
Landslides and unstable slopes represent a serious geotechnical risk. We carry out rehabilitation using stabilization measures such as anchoring, soil reinforcement and drainage systems, in order to prevent further movement of the soil and ensure the long-term stability of the terrain. -
Rehabilitation of foundations of residential and commercial houses and buildings
Strengthening and rehabilitation of existing foundations are key to extending the life of buildings. We use methods such as sub-concreting, installation of micropiles or jet-injected columns to ensure additional bearing capacity and stability of the foundation. -
Strengthening (improvement) of the soil with jet-injected steps
Jet-injected steps are used to improve the soil by injecting a cement mixture under high pressure. This method makes it possible to create columns that increase the bearing capacity of the soil and reduce the possibility of subsidence, making it suitable for construction. -
Slope stabilization
Slope stabilization is essential to prevent landslides and erosion. We use various methods, including micropilots, anchoring, retaining walls, biotechnical solutions and drainage systems, to ensure long-term slope stability. -
Deep foundation of structures
In deep foundations, we use techniques such as piles and diaphragms to provide stable foundations for structures on deep or unstable soil layers. These methods ensure the safety and load-bearing capacity of structures on complex terrains.