Knowledge and understanding:
at the end of this course the student should know elementary analysis methods to evaluate stress and strain states of the structures. Moreover, he should gain understanding of the fundamental principles of the design methods and evaluation of structural reliability, as well as instruments and techniques to draft the structural design.
Applying knowledge and understanding:
The student should be able to compute actions on constructions and resultants stress and strain fields in the structure, to design reinforced concrete and steel structural elements, including foundations and supports, on the basis of design codes. Finally, the student should be able to draft design results with relative details.
By the end of the course, the student should be able to evaluate, with critical mind, the good choice for the structural element design and its feasibleness.
The student should be able to clearly present the results of the design activity by means of tables, charts and drawings.
Knowledge of basic concepts on equilibrium equations, material technology, strength of material and theory of elastic beams.
Construction techniques and structural forms.
Principles of Static, Trusses and frames.
Stress analysis. Isostatic and hyperstatic structures. Force method.
Design methods. Design at the Allowable Stresses and at the Limit States.
Actions on structures. Permanent and imposed loads. Snow, wind and seismic actions.
Reinforced concrete structures. Material properties. Members subjected to axial load, to flexure, to combined axial load and flexure (interaction diagrams). Members subjected to Shear.
Steel structures. Material properties. Tension members, compression members and buckling. Latticed columns. Combined bending and axial load. Bolted and welded connections.
Practices lectures. Design of beams and columns. Design-code recommendations.
The topics of the course are detailed shown on the University web learning site “Elly”.
Notes given by lecturer and educational material available on the University web learning site “Elly”.
- B. Furiozzi, C. Messina, L. Paolini. “Prontuario per il calcolo di elementi strutturali”– Le Monnier Scuola - Volume Unico.
- R. Calzona, C. Cestelli Guidi. “Il calcolo del C.A.”. Hoepli Editore, Milano, 2007.
- G. Toniolo, M. Di Prisco. “Cemento armato. Calcolo agli stati limite”. Zanichelli Editore, 2000.
- G. Ballio, F.M. Mazzolani. “Strutture in acciaio”. Hoepli Editore, Milano, 1987.
The theoretical part of the course will be illustrated through lectures using Power-Point presentations Practical lectures will perform by design examples on reinforced concrete and steel elements, as well as drawing construction details, under the guide of tutors.
The assessment of learning is based on an oral exam, which deals with three theoretical and design questions. The answer to each question will be evaluated with a score from 0 to 10.
Lecture attendance is highly recommended, as well as the use receiving student time of the professor to clear and to deep topics.