Slope Stability and Stabilization Methods
A.Y. 2025/2026
Learning objectives
Acquire operative knowledge of quantitative slope stability analysis in rock masses and soils, and stabilization methods: from the prospecting methods for instability process identification, to monitoring systems, stabilization methods and fundamentals for design.
Expected learning outcomes
At the end of the course, students are expected to be able to: 1) plan field investigations for the identification of slope instability processes at local scale; 2) select and apply the most appropriate mechanical behaviour laws, and assess strength and deformability of rock discontinuities, rock matrix and soil; 3) plan the monitoring and interpret its results; 4) assess the level of safety of slopes in compliance with design standards, 5) assist engineers in planning stabilisation works. Students are also expected to master technical terminology to communicate to a professional standard, and that develop problem-solving skills in slope stability contexts.
Lesson period: Second semester
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
Second semester
Course syllabus
Main covered topics include: · Slope movement types and process (Landslide classification, kinematics, predisposing and triggering factors) · Site explorations methods and monitoring tools · Physical-mechanical properties and constitutive laws of rock masses (rocks, discontinuities) and loose deposits (recalls) · Limit equilibrium analysis of rock and soil slopes · Rockfall analysis · Natural and artificial slope stabilization methods · Overview of case histories
Prerequisites for admission
Basic knowledge of geomorphology and engineering geology (Geotechnics and hydrogeology) is required.
It is recommended to take this course during the first year and before "Modellazione Numerica per la Geoingegneria", as "Slope Stability and Stabilization Methods" provides the essential background knowledge.
It is recommended to take this course during the first year and before "Modellazione Numerica per la Geoingegneria", as "Slope Stability and Stabilization Methods" provides the essential background knowledge.
Teaching methods
The course involves both traditional lectures (3CFU) and problem-solving workshops (3CFU), where students are guided through the analysis of landslide phenomena also via specialised software.
Teaching Resources
The teaching material (handouts and references) will be shared on My Ariel
Assessment methods and Criteria
Evaluation of the workbook (collection of exercises carried out by the student during classroom activities and independently); oral examination to discuss the report contents and test the knowledge of the subject.
GEO/05 - ENGINEERING GEOLOGY - University credits: 6
Practicals: 36 hours
Lessons: 24 hours
Lessons: 24 hours
Professors:
Apuani Tiziana, Cecinato Francesco
Professor(s)
Reception:
by appointment
Via Mangiagalli 34 (Milano), Ground Level, or online via MS Teams