- Docente: Giovanni Castellazzi
- Credits: 12
- SSD: ICAR/08
- Language: Italian
- Moduli: Francesco Ubertini (Modulo 1) Giovanni Castellazzi (Modulo 2) Luca Patruno (Modulo 3)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2) Traditional lectures (Modulo 3)
- Campus: Bologna
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Corso:
First cycle degree programme (L) in
Architecture-Engineering (cod. 5695)
Also valid for Second cycle degree programme (LM) in Electrical Energy Engineering (cod. 9066)
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from Feb 20, 2024 to Jun 05, 2024
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from Feb 19, 2024 to Jun 05, 2024
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from Feb 23, 2024 to May 31, 2024
Learning outcomes
The goal of the course is to provide the students with the fundamental concepts of solid mechanics and the methodologies for structural analysis.
Course contents
Requirements/Prior knowledge
A prior knowledge and understanding of mathematical analysis and rational mechanics is required to attend with profit this course.
Fluent spoken Italian is a necessary pre-requisite: all lectures and tutorials, and all study material will be in Italian.
Course Contents
OVERVIEW
STRAIN ANALYSIS
Displacement, deformation and strain. Strain tensor and physical meaning. Principal strains and directions. Compatibility equations.
STRESS ANALYSIS
Volume and surface forces. Rigid body equilibrium. Concept of stress and stress tensor. Principal stresses and directions. Mohr's circles. Equilibrium equations.
GENERAL RELATIONSHIPS
Principle of virtual works. Weak form of equilibrium and weak form of compatibility. Applications to beams.
ELASTICITY
Behavior of materials. Testing of ductile and brittle materials. Elastic behavior and strain energy. Linear elasticity. Isotropy. The linear elastic equilibrium problem. Superposition. Uniqueness of solution. Clapeyron's, Betti's and Maxwell's theorems.
FAILURE CRITERIA
Limit states and safety factors. Tresca stress criterion. Von Mises stress criterion. Failure criteria for brittle materials.
ST VENANT'S PROBLEM
St Venant's hypothesis and postulate. Axial loading. Pure bending. Eccentric axial loading. Torsion. Shear. Thin-walled members.
THEORY OF STRUCTURES
Beam model and internal forces. Constraints. Static and kinematic analysis. Funicular. Truss structures. Cross section geometry properties. Structural symmetry and asymmetry. The Elastica equation. Evaluating displacements and rotations. Statically indeterminate structures: force method and displacement method. Elastic stability. Euler buckling load.
Readings/Bibliography
- Lecture slides and notes (https://virtuale.unibo.it).
- M. Capurso, Lezioni di Scienza delle Costruzioni, Pitagora Editrice.
- E. Viola, Esercitazioni di Scienza delle Costruzioni, Vol. 1, Pitagora Editrice Bologna, 1993.
- E. Viola, Esercitazioni di Scienza delle Costruzioni, Vol. 2, Pitagora Editrice Bologna, 1993.
- Claudia Comi, Leone Corradi Dell'Acqua - INTRODUZIONE ALLA MECCANICA STRUTTURALE 3/ED - 2016
Teaching methods
The course content will be entirely covered by the lectures. The course includes some help sessions, which will cover the practical aspects of the lectures. The instructors will tutor the students. The course includes, also, at least one visit to the Laboratory of Structural Engineering and Geotechnics (LISG) to attend some laboratory tests of materials and structures.
In consideration of the types of activities and teaching methods adopted, the attendance of this training activity requires that all students of modules 1 and 2 carry out in e-learning mode [https://www.unibo.it/it/servizi-e -opportunities/health-and-assistance/health-and-safety/safety-and-health-in-places-of-study-and-traineeship] and participation in module 3 of specific training on safety and health in places of study . Information on dates and methods of attendance of module 3 can be consulted in the appropriate section of the study course website.
Assessment methods
There will be a final examination structured in two phases: a first written exam (2,5 hours, without using notes or books) and a subsequent oral exam. The written exam consists of a few simple exercises and will be reviewed at the presence of the students. In order to be admitted to the oral exam, students need to obtain a sufficient grade in the written test. The oral exam consists of some questions intended to assess the knowledge and understanding of the topics covered by the course. There will be also two midterm written examinations. Students who pass both of them will be only required to take the final oral exam.
To obtain a passing grade, students are required to at least demonstrate a knowledge of the key concepts of the subject and some ability for critical application.
A failing grade will be awarded if the student shows knowledge gaps in key-concepts of the subject and/or logic failures in the analysis of the subject.
Teaching tools
The teaching tools are: projector and PC.
Visits to the Laboratory of Structural Engineering and Geotechnics (LISG) are planned.
As concerns the teaching methods of this course unit, all students must attend Module 1, 2 [https://www.unibo.it/en/services-and-opportunities/health-and-assistance/health-and-safety/online-course-on-health-and-safety-in-study-and-internship-areas] online, while Module 3 on health and safety is to be attended in class. Information about Module 3 attendance schedule is available on the website of your degree programme.
Office hours
See the website of Giovanni Castellazzi
See the website of Francesco Ubertini
See the website of Luca Patruno
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.