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LABORATORY OF SOLIDS/STRUCTURAL MECHANICS AND STRUCTURAL ENGINEERING

Degree course Architecture - Restoration
Curriculum Curriculum unico
Learnings Orientamento unico
Academic Year 2018/2019

Module: STRUCTURAL ENGINEERING

Degree course Architecture - Restoration
Curriculum Curriculum unico
Learnings Orientamento unico
Academic Year 2018/2019
ECTS 4
Scientific Disciplinary Sector ICAR/09
Year First year
Time unit
Class hours 40
Educational activity Formative educational activities

Single group

Professor RAFFAELE PUCINOTTI
Objectives The laboratory introduces the basic concepts of analysis, design and safety of structure in accordance with the latest Italian and International standards. The first part of the course is dedicated to masonry structures, load analysis, description and interpretation of the most recurring structural elements. Particular attention is given to the arches. The second part of the course starts with the static of reinforced concrete and steel and then goes to the design of simple structures as well as the verification of structural elements by means of the semi-probabilistic method at ultimate-limit-states.
The Laboratory also addresses issues related to on-site and laboratory investigations with particular reference to non-destructive testing (PnD). The criteria for the anti-seismic design of buildings and some simplified methods of analysis are introduced. Finally, the students are directed to reading and interpreting the technical standards for buildings.
Programme This course introduces students to the analysis and design of building structures and to the concept of structural safety and prepares students to analyze and design structural elements and systems according to the Italian and European standard. The course starts with the analysis and design of reinforced concrete and steel structures culminating in the consideration of building systems design. The quantitative understanding of interior forces and bending moments, stresses, and deformations are an integral part of the learning process throughout the course. Moreover, both destructive (drilling cores) and nondestructive evaluation of concrete structures and assessment of existing buildings will be introduced.
The course moreover offers addresses the analysis and design of structural elements such as trusses, continuous beams, rigid and braced frames. It also introduces seismic design, the use of structural elements in a building context and simplified methods of analysis of indeterminate structures.
Books 1. Cosenza E., Manfredi G., Pecce M., Strutture in Cemento Armato, Hoepli, 2010;
2. Raffaele Pucinotti, Patologia e diagnostica del cemento armato, Dario Flaccovio Editore (2006).
3. Bursi Oreste S.; Pucinotti Raffaele; Zanon Gabriele, Progettazione di Giunzioni e Strutture Tubolari in Acciaio, Dario Flaccovio Editore (2012).
4. Lecture notes provided by the teacher.
Traditional teaching method Yes
Distance teaching method No
Mandatory attendance Yes
Written examination evaluation No
Oral examination evaluation Yes
Aptitude test evaluation No
Project evaluation No
Internship evaluation No
Evaluation in itinere No
Practice Test No

Further information

Description Document
Programma Inglese (programma) Document
programma italiano (programma) Document

Office hours list:

Description News
Office hours by: Raffaele Pucinotti
Mercoledi dalle ore 8.30 alle ore 10.30
No news posted
No class timetable posted

Module: ENGINEERING MECHANICS OF SOLIDS AND STRUCTURES

Degree course Architecture - Restoration
Curriculum Curriculum unico
Learnings Orientamento unico
Academic Year 2018/2019
ECTS 4
Scientific Disciplinary Sector ICAR/08
Year First year
Time unit
Class hours 40
Educational activity Formative educational activities

Single group

Professor AURORA ANGELA PISANO
Objectives The laboratory introduces the basic concepts of analysis, design and safety of structure in accordance with the latest Italian and International standards. The first part of the course is dedicated to masonry structures, load analysis, description and interpretation of the most recurring structural elements. Particular attention is given to the arches. The second part of the course starts with the static of reinforced concrete and steel and then goes to the design of simple structures as well as the verification of structural elements by means of the semi-probabilistic method at ultimate-limit-states.
The Laboratory also addresses issues related to on-site and laboratory investigations with particular reference to non-destructive testing (PnD). The criteria for the anti-seismic design of buildings and some simplified methods of analysis are introduced. Finally, the students are directed to reading and interpreting the technical standards for buildings.
Programme PART 1: ENGINEERING MECHANICS OF SOLIDS AND STRUCTURES

Masonry structures: general concepts, recalls on the mechanical behavior of no-tensile-strength materials.
The roof structures, the elevation structures. Design criteria. Load analysis; seismic actions, arches, chains, steel reinforced masonry. Flat arches and their static behavior. Ropes and arches: two optimal static shapes. Elements of static graphics.
Structural elements calculation techniques; simplified seismic analysis: equivalent static analysis.
Masonry structures: analysis, diagnosis, structural intervention techniques for consolidation.
Design and verification of arches. Mery's method. Introduction to the anti-seismic design of masonry constructions. Standard references and applications.


PART 2: STRUCTURAL ENGINEERING

Existing structures: main deterioration causes in reinforced concrete-, steel-, wood- and masonry-structures.
Structural diagnosis techniques: destructive (drilling cores) and non-destructive evaluations. Interpretation of results of laboratory findings and of non-destructive tests.
Structural types: analysis of the most common structural types and identification of the main structural parts.
Computational methods for reinforced concrete structures: suggestions by technical rules.
Seismic action effects: probabilistic approach in safety assessment of buildings.
Static theory of reinforced concrete: semi-probabilistic method at ultimate-limit-states.
Books F. P. Beer, E. R. Johnston, J.T. DeWolf, D.F. Mazurek. Mechanics of Materials, McGraw-Hill Education, 7th Edition, 2014.
E.P. Popov. Engineering mechanics of solids, Prentice Hall 2nd Edition, 1998.
R. Park, T. Paulay. Reinforced concrete structures, New York, London, etc.: Wiley, 1975.
T. Paulay, M.J.N. Priestley. Seismic design of reinforced concrete and masonry buildings, New York, Wiley 1992.
Traditional teaching method Yes
Distance teaching method No
Mandatory attendance No
Written examination evaluation No
Oral examination evaluation No
Aptitude test evaluation No
Project evaluation No
Internship evaluation No
Evaluation in itinere Yes
Practice Test No

Further information

Description Document
Programma (programma) Document
Programma Inglese (programma) Document
Scheda di Trasparenza del Corso (varie) Document
Valutazione degli Studenti AA 2017-18 (varie) Document

Office hours list:

Description News
Office hours by: Aurora Angela Pisano
Orario di Ricevivento per l'anno accademico 2018-2019

Tutti i mercoledi' mattina dalle 9.00 alle 12.00 e alla fine di ciascuna lezione.
No news posted
No class timetable posted
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