GEOTECHNICS I
(objectives)
The course of Geotechnics I aims to provide students with the basic knowledge of the mechanical and hydraulic behaviour of soils and the theoretical foundations of the main methods used in engineering practice, for the design and verification of foundation structures and earth-supporting works. Geotechnics I is a teaching characterizing the Degree Course in Civil Engineering that aims to form a professional profile of civil engineer mainly oriented to the fields of hydraulic engineering, engineering of structures and road infrastructure and, more generally, transport systems. This engineer profile will be able to carry out design, construction, management, control and maintenance of all civil works. The course will cover the basic topics of soil mechanics, such as: type and constitution of soils, their multiphase nature, the principle of effective stresses, the seepage flow and experimental tests for the determination of physical and mechanical parameters. In addition, knowledge will be provided of some analytical methods for calculating the thrust of soil on the support structures and for calculating the limit load and subsidence of surface foundations. At the end of the course students will be able to interpret the main laboratory geotechnical tests, perform basic geotechnical calculations for the dimensioning of support walls and shallow foundations, assess the
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Code
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20802027 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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ICAR/07
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Contact Hours
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48
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Type of Activity
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Core compulsory activities
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Teacher
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GRAZIANI ALESSANDRO
(syllabus)
Introduction to the course
1. Characteristics of soils • origin of natural soils, marine and continental environment • identification and classification of soils
2. Porous continuous medium model • review on stress analysis, Mohr circle • review on strain analysis, volume change and distortion • principle of effective stresses • equations of equilibrium and compatibility
3. Distribution of pore pressures and stress in the soil • hydrostatic conditions, capillary rise • filtration motions (1D only) in soils • tests for permeability measurement • lithostatic stress state
4. Models of elastic and plastic material • linear elasticity; drained and not drained conditions; ideal sampling • elements of plasticity theory (1D conditions only) • viscosity
5. Compressibility of soils • mechanical laboratory tests • edometric compression test • analysis of the consolidation process
6. Deformability and resistance of soils • mechanical behaviour of soils under drained and undrained conditions • TD direct shear test; TX-CID drained triaxial tests • criteria for shear strength, critical state, undrained shear strength • TX-UU, TX-CIU undrained triaxial tests • in-situ geotechnical tests; SPT standard penetration test, VT vane test
7. Introduction to analysis and design of geotechnical structures • foundation structures, stress induced by foundation loads • calculation of foundation settlements in coarse and fine grain soils • calculation of soil pressure (active and passive yield conditions, Rankine) • earth retaining structures, cantilever and gravity walls • limit equilibrium methods (Coulomb) • limit analysis methods • bearing capacity of a foundation
(reference books)
- Lecture notes prepared by the lecturer and further suggested readings.
- Geotechnical engineering – Lancellotta, Ed. Balkema - Foundation analysis and design - Bowles, Ed. McGraw-Hill
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Written test
Oral exam
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