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| GCIV0603-2 | Geotechnics and infrastructure
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| Duration : | 30h Th, 30h Pr, 1d FW |
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| Number of credits : |
| Bachelor in engineering sciences, civil ingineer in architecture orientation, 3rd year | | 5 |
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| Bachelor in engineering sciences, civil engineer orientation (Bachelor in engineering sciences, civil engineer orientation), 3rd year | | 5 |
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| Bachelor in engineering sciences, civil engineer orientation (Bachelor in engineering sciences, civil engineer orientation), 3rd year | | 5 |
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| Master in Civil Engineering, in-depth approach, 1st year | | 5 |
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| Master in Geological and Mining Engineering, in-deph approach, 1st year | | 5 |
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| Master in Geological and Mining Engineering, in-deph approach, 1st year | | 5 |
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| Master in Civil Engineering, specialized approach, 1st year | | 5 |
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| Master in Geological and Mining Engineering, specialized approach, 1st year | | 5 |
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| Master in Geological and Mining Engineering, specialized approach, 1st year | | 5 |
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| Lecturer : | Robert Charlier, Jean-Pol Radu |
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Language(s) of instruction :
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| French language |
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Organisation and examination :
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| Teaching in the second semester |
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Course contents :
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| Soil mechanics : introduction, granular media, physical properties, classification, water in soils, seepage, soil - water interaction, mechanical properties, in situ stress state.
Slope stability
Retaining structures : gravity walls, sheet piles
Shallow foundations, deep foundations
Roads : design, structural behaviour |
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Learning outcomes of the course :
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| Understanding of the main principles and fundamental laws of soil mechanics. Capacity for the choice and the interpretation of the physical and mechanical testing. Design of foundations, retaining structures, slopes and embankments.
After completing the course the student is expected to
- Chose a geotechnical testing campaign
- Interpret the main field and laboratory tests
- Understand the principles of the main constitutive laws for soils
- Calculate stress distribution under applied loads
- Design a foundations for bearing capacity and settlement
- Design soil retaining structures (walls, sheet piles, bracing)
- Verify stability and safety of natural and manmade slopes
- Design a road structure
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Prerequisites and co-requisites/ Recommended optional programme components :
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| Solid mechanics |
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Planned learning activities and teaching methods :
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| Practical exercices, lab visit, field visit, papers analysis... |
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Mode of delivery (face-to-face ; distance-learning) :
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| Course given face-to-face during the 2nd semester, Monday afternoon |
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Recommended or required readings :
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| Lectures notes avalaible at student centrale des cours - AEES |
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Assessment methods and criteria :
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| Written exam on theory and exercices |
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Work placement(s) :
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Organizational remarks :
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Contacts :
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| R. Charlier, J-P. Radu |
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