-Application of the equilibrium method for the structural analysis;
-evaluation of the stiffness matrix for hyperstatic structures;
-foundation structures with plinth and oak beams;
-the actions on steel and R.C. structures (permanent, snow and wind, not earthquake);
-design of steel structures;
-design of reinforced concrete structures based on NTC 2018 Standards (chap. 4).
A. Chiarugi, G. Terenzi. Elementi di teoria delle strutture, Centro stampa 2P
G. Terenzi. Elementi di costruzioni in acciaio, Centro stampa 2P
G. Ballio, F. Mazzolani. Strutture in acciaio, Ed . Hoepli
E.F. Radogna. Tecnica delle costruzioni – Costruzioni composte acciaio-calcestruzzo, cemento armato, cemento armato precompresso. Ed. ESA
G. Toniolo. Cemento armato – Calcolo agli SL, Ed. Masson
E.F. Radogna. Tecnica delle costruzioni – Fondamenti delle costruzioni in acciaio. Ed. ESA
P. Pozzati: Teoria e tecnica delle strutture, Vol. 1, 2I, 2II, 3, Ed. UTET
Teacher's notes.
Learning Objectives
The course aims at the training of technicians able to design simple structural elements constituting steel and reinforced concrete buildings.
Prerequisites
To support the exam, the student must have supported the examinations of Meccanica razionale and -scienza delle costruzioni.
Teaching Methods
The course consists in theoretical lessons and the development of a design exercise by the students. This exercise consists in the drafting of two structural projects: a steel industrial building and a reinforced concrete framed building. The projects must be presented at the final examination also to check the theoretical knowledge acquired during the course.
Type of Assessment
The final examination is articulated in two parts: the one is written, consisting in the resolution of an exercise of theory of structures, the other is an oral discussion about the themes of the Structural design. In this last part it should be verified the theoretical knowledge acquired during the course.
Course program
-Application of the equilibrium method for the structural analysis;
-evaluation of the stiffness matrix for hyperstatic structures;
-foundation structures with plinth and oak beams;
-the actions on steel and R.C. structures (permanent, snow and wind, not earthquake);
-design of steel structures;
-design of reinforced concrete structures based on NTC 2018 Standards (chap. 4).