CODE 72508 ACADEMIC YEAR 2023/2024 CREDITS 6 cfu anno 2 INGEGNERIA CIVILE E AMBIENTALE 8715 (L-7) - GENOVA 6 cfu anno 2 SCIENZE DELL'ARCHITETTURA 8694 (L-17) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ICAR/08 LANGUAGE Italian TEACHING LOCATION GENOVA SEMESTER 2° Semester PREREQUISITES Propedeuticità in ingresso Per sostenere l'esame di questo insegnamento è necessario aver sostenuto i seguenti esami: Sciences of architecture 8694 (coorte 2022/2023) MATHEMATICS 1 56394 2022 MODULES Questo insegnamento è un modulo di: STRUCTURAL MECHANICS I TEACHING MATERIALS AULAWEB AIMS AND CONTENT LEARNING OUTCOMES The module provides basic elements of solid mechanics necessary for understanding the concepts of strain, stress, mechanical properties of materials, applied to the local analysis of the elastic beam (De Saint-Venant problem) AIMS AND LEARNING OUTCOMES The course introduces students to the Solid Mechanics through the formulation of appropriate mathematical models able to simulate the real behavior of materials. Among these the simplest and most widely used is known as Cauchy continuum. Therefore, this course represents an introduction to the Mechanics of Materials (to use a terminology of English origin) which is fundamental in every field of Engineering, not only for Civil and Environmental Engineers. The main learning outcome of the course is to provide, in its first part, fundamentals on the analysis of tension, deformation and constitutive law of three-dimensional solids in the linear field (i.e., small displacements and displacement gradients). The second part of the course deals with a particular continuous model able to represent a continuous mono-dimensional beam type (i.e., the De Saint Venant model), whose solution allows to deal with all the stress cases present in the structural engineering problems. The strong connection with Module 1 is repeatedly underlined with simple examples. At the end of the course the students will be able to design and verify simple beams subject to stress not only of bi-dimensional but also of three-dimensional nature (as in the case of biaxial flexure and torsion). During the course the student must develop the following main skills as a result of the learning process: - physically interpreting deformation and stress states - determining principal deformations and stresses and their corresponding directions in both analytical and graphical approach - writing compatibility and equilibrium (balance) equations of the continuous body - using the constitutive law equations of isotropic linear elastic materials and write the potential elastic energy - to determine stress, strain and displacement fields deriving from different simple and compound stresses in the De Saint Venant continuous model: axial load, bending and biaxial flexure, combined bending and axial loading, torsion, transverse shear, combined torsion and shear stresses - graphically showing the stress fields determined - using approximate theories for the evaluation of uniform torsion in open and closed thin-walled sections - performing verifications of strength in the presence of multiaxial stress states - being able to deal with design and verification problems for simple beams TEACHING METHODS Lectures: on the blackboard using slide projections. Working students and students with certification of DSA, disability or other special educational needs must contact the teacher at the beginning of the course to agree on teaching and examination methods which, in compliance with the teaching objectives, take into account the individual learning methods. SYLLABUS/CONTENT The Cauchy continuum Deformation analysis Stress analysis Virtual Work Identity Constitutive law for isotropic material The elastic problem and the De Saint Venant principle The De Saint Venant problem Semi-inverse method General solution for normal stress Sub-problem 1: uniform extension Sub-problem 2: uniform bending Mixed problems (biaxial bending and eccentric normal force) Sub-problem 3: uniform torsion Sub-problem 4: non-uniform bending Mixed problems: transverse shear and torsion, shear center Notes on resistance criteria and equivalent (ideal) stress RECOMMENDED READING/BIBLIOGRAPHY Course notes available on Aulaweb Lecture videos available on Teams Nunziante, Gambarotta, Tralli - Scienza delle Costruzioni - McGraw Hll (capitoli 5 e 6) Luongo, Paolone - Scienza delle Costruzioni: Il continuo di Cauchy - Casa Editrice Ambrosiana (capitoli 1-6, 10) Casini, Vasta - Scienza delle Costruzioni - Città Studi Edizioni (capitoli 13-22, 24) TEACHERS AND EXAM BOARD GIUSEPPE PICCARDO Ricevimento: Student reception by appointment by writing to giuseppe.piccardo@unige.it, in presence at the teacher's office or online (Teams) Exam Board LUIGI GAMBAROTTA (President) PAOLO BADINO VITO DIANA GIUSEPPE PICCARDO (President Substitute) LESSONS LESSONS START https://corsi.unige.it/corsi/8715/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION The exam consists of a written and an oral test. Furthermore, during the Course, there will be two written tests on the first (Cauchy continuum) and the second part (DSV problem) of the Course. The students that will pass them, will be enabled to access directly the oral exam. ASSESSMENT METHODS The written test is based on the solution of some (2/3) problems similar to those dealt with during the course exercises, concerning the whole program of the course. The use of books or notes is allowed (open-book tests), but the use of electronic equipment of any kind (cell phones, tablets, laptops) is not permitted. The written tests are valid for the entire academic year in which they are taken. Students who have obtained a sufficient grade (usually equal to or greater than 18) in the written test are admitted to the oral exam. Handing in a test cancels the outcome of any previous written tests. The written partial tests proposed during the course (II semester), with an average grade approximately greater than 16 (with both tests having results higher than 7/30), replace the written test. The partial tests lose validity at the end of the Academic Year, until the start of the next course (around February). The topics of the partial tests concern the contents developed in the periods preceding the test itself and concern the first (Cauchy continuum) and the second part (DSV model solutions) of the course. Handing in a test cancels the outcome of the partial tests. The oral examination is aimed at verifying the acquisition of the concepts and analytical skills acquired by the student and the knowledge of the theoretical part of the program, as well as a possible discussion of the written test. To take the oral test it is necessary to have a valid written test and to be in compliance with the prerequisites. If the outcome of the oral test is not sufficient, it is possible to repeat the oral test ONLY ONCE keeping the written test valid but ONLY if the written test was passed with a mark higher than 18. The exams take place in Italian. The oral exam can be taken in English. Exam schedule Data appello Orario Luogo Degree type Note 22/12/2023 15:00 GENOVA Scritto aula A7 16/01/2024 15:00 GENOVA Orale aula A7 19/01/2024 15:30 GENOVA Scritto aula A7 06/02/2024 15:30 GENOVA Scritto aula A7 14/02/2024 15:30 GENOVA Orale aula A5 14/06/2024 15:30 GENOVA Scritto aula B2 28/06/2024 15:00 GENOVA Orale aula A7 10/07/2024 15:30 GENOVA Scritto aula A7 22/07/2024 15:00 GENOVA Orale aula A7 02/09/2024 15:30 GENOVA Scritto Aula A7 13/09/2024 15:00 GENOVA Orale aula A7