| Recommended semester: 7th - 9th semester |
| Scope and form: Lectures, exercises, laboraory work, projects |
| Evaluation: Approval of coursework/reports
|
| Examination: 13-scale |
| Previous course: 56351 + 56354 |
| Prerequisites: 56141 / 11413 |
| Preferred prerequisites: 56002 / 11401 Geology and applied mathematics. |
| Participant limitation: Max. 20 |
| Aim: To enable the participants - on the basis of a more advanced knowledge in soil strength and deformation characteristic to explain and to use simple mathematical models describing elastic, elastic plastic, and purely plastic behaviour of soil. - to understand the basis of, and to use (with computers) numerical methods to solve deformation and failure problems for pile foundations and for soil continua. - to know about a series of advanced soil mechanics experiments and model tests and to a certain extent be able to do the experiments, interpretate the results and use them in practice. |
| Contents: Constitutive equations for soils. Theory of consolidation. Advanced theory for pile foundations. Theory of plasticity for undrained clay and for sand. Advanced experimental soil mechanics (incl. triaxial tests). Model tests and centrifuge tests. Numerical methods in soil mechanics (incl. finite element method). |
Contact: Anette Susanne Krogsbøll, building 373, (+45) 4525 5088, akr@byg.dtu.dk
Niels Nielsen Foged, building 373, (+45) 4525 5087, nf@byg.dtu.dk |
| Department: 011 Department of Civil Engineering |
| Keywords: Strength and deformation properties of Soil, Theory for piles, Theory of Plasticity for soil, Experimental methods, Numerical methods in soil mechanics |
| Updated: 23-04-2001 |
