Czech

Not applicable.

Institute of Geotechnics (GTN)

The student acquires the theoretical and practical knowledge of the target setting. The output from theoretical point view is designing of the selected earth structures (earth reinforcement soil, gabions etc.) or improvement of subsoil by stone columns, deep soil mixing or designing of PVD for consolidation. The practical output are main principles for construction these types of structures.

Knowledge from Soil Mechanics (properties and behaviour of soils), theory of Elasticity and Plasticity

Not applicable.

Not applicable.

Requirements for successful completion of the subject are specified by guarantor’s regulation updated for every academic year.

1. Introduction of Earth structures – types, basic features and geological investigation.
2. Material for Earth structures – soil
3. Material for Earth structures – rock material, recycled materials, light weight fills
4. Principles, aspects of area compaction and area stabilisation
5. General principles of designing earth structures – stability, settlements.
6. Ground improvement – Precompression, Vertical drains
7. Ground improvement – Deep Soil Mixing, Deep Dynamic Compaction
8. Ground improvement – Stone Columns
9. Geosynthetics - properties; separation, filtration, drainage and erosion function
10. Geosynthetics - reinforcement function
11. Gabions, Nails
12. Technology of Earth structures(embankment, cut-off)
13. Monitoring of Earth structures

Not applicable.

Aim of this subject is to introduce theoretical and technological issues of earth structures with special emphasis on traffic structures. Theoretical part of the subject introduces basic theoretical principles, design procedures of earth structures (stability, deformation, ground improvement) and their analysis.
Technological part is dedicated to the issues connected with execution of the earth structures. It discusses construction requirements, ground improvement techniques and others.
Students will continuously verify gained knowledge on Seminars by manual calculations as well as by calculations supported by specialized software.

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Not applicable.

Not applicable.

Miča, Lumír: Zemní konstrukce (se zaměřením na dopravní stavby). Vysoké učení technické v Brně, 2004. (CS)
R. D. Barksdale and R. C. Bachus: Design and Construction of Stone Columns, Volume 1. U.S. Department of Transportation, FHWA-RD-83-026, 1983. [http://isddc.dot.gov/OLPFiles/FHWA/010528.pdf] (EN)
Robert G. Lukas: Geotechnical Engineering Circular No. 1 - Dynamic Compaction. US Department of transportation. FHWA-SA-95-037, 1995. [http://isddc.dot.gov/OLPFiles/FHWA/009754.pdf] (EN)

Schaefer, V.R.: Ground Improvement, Ground Reinforcement, Ground Treatment Developments 1987-1997. American Society of Civil Engineers, 1997. 0-7844--0260-4. (EN)
STRIEGLER,W.,WERNER,D.: Erdstoff verdichtung. Verlag für Bauwesen, Berlin, 1976. (DE)
VANÍČEK,I.: Zemní konstrukce dopravních staveb, Stavební roč. ČSSI. ČKAIT, Praha, 1999. (CS)