The aim of the course is to analyze some of the main aspects related to soil-structure interaction phenomena that occur in the built environment. Since the focus is on existing buildings, after a first part that deals with the types of foundation and the basic methods used in practice for settlement assessment and bearing capacity calculation, the issues of greatest interest, due to external and natural causes (e.g. slope movements, soil liquefaction, groundwater oscillations, subsidence, etc.) and anthropogenic (e .g. deep excavations, shallow tunnels, etc.), are detailed and studied in depth. The course also provides the knowledge and skills to students on design and intervention guidelines relating to the foundation-soil system, such as the strengthening of foundations, underpinnig and soil improvement.
- foundation types (shallow and deep) and methods for calculating settlements and bearing capacity.
- geotechnical problems of major concern for existing buildings: slope movements due to landslides; actions induced by an earthquake, loss of bearing capacity and settlements induced by soil liquefaction, problems related to deep excavations and shallow tunneling
- knowledge and skill on design guidelines and methods for possible intervention techniques on the foundation-soil system (underpinning, reinforcement and ground improvement).
SOFT SKILLS:
Personal skill: basic level (case/problem teaching).
Learning skill: basic level (case/problem teaching)
Skill in project creation: basic level (teaching for projects)
This module uses lectures, tutorial exercises, case histories and practice exercises. Technical visits could also be organized.
"Working students and students with certified DSA, disability or other special educational needs are advised to contact the lecturer at the beginning of the course in order to agree on teaching and examination methods which, while respecting the teaching objectives, take into account individual learning methods."
- Soil Mechanics : an overview
- Existing buildings: foundation types; settlement and bearing capacity assessment approaches.
- Analysis of geotechnical problems:
- Intervention techniques on the foundation-soil system: underpinning, reinforcement and ground improvement.
Set of Notes (Aulaweb)
Research Papers suggested by the teacher
Matos Fernandes M. (2020). Analysis and design of geotechnical structures . CRC Press, Taylor & Francis Group
Lutenegger A.J.(2019). Soil Geotechnology in Construction. CRC Press, Taylor & Francis Group
Barnes G.E. (2000). Soil mechanics: Principles and Practice (2nd ed.) Palgrave
Ricevimento: By appointment, to be agreed with the lecturer: riccardo.berardi@unige.it
RICCARDO BERARDI (President)
ROSSELLA BOVOLENTA
STEFANIA DEGLI ABBATI
SERENA CATTARI (President Substitute)
https://corsi.unige.it/corsi/10719/studenti-orario
The examination consists of an oral test that focuses on the discussion of two reports that students must prepare independently on two of the topics covered in the course, as well as questions on other topics discussed in the lectures.
The purpose of the oral examination is to assess whether the theoretical and practical concepts relating to the topics covered have been acquired and understood, by means of specific questions and discussion of the compulsory reports and real case studies. The completeness and quality of the reports (preferably accompanied by case studies on the chosen topic, researched and discussed directly by the student) will be assessed, as well as the quality of the exposition, the knowledge of the topics, and the ability to reason critically.
