34172 - Structure Design (A)

Course Unit Page

  • Teacher Giada Gasparini

  • Credits 8

  • Teaching Mode Traditional lectures

  • Language Italian

  • Campus of Cesena

  • Degree Programme Single cycle degree programme (LMCU) in Architecture (cod. 0881)

  • Course Timetable from Mar 01, 2023 to May 26, 2023

SDGs

This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.

Affordable and clean energy Industry, innovation and infrastructure Sustainable cities

Academic Year 2022/2023

Learning outcomes

The course aims at providing the students with the expertise for conceive and design a structural system able to safely bearing dead , wind, live and seismic loads.

The knowledge and expertise to be learned by students regards mainly: the structural concept of buildings, the fundamental technical codes, the steel structures design, the r.c. structures design, the basic theory of seismic design and of innovative methodology design.

 

Course contents

1) Basic theory:

1.1) The role of structural design in the architectural design

1.2) Mechanical properties and characteristics of materials used commonly in constructions (reinforced concrete, steel, wood, alluminium)

1.3) Technical codes (italian codes, eurocodes)

2) The structural conception:

2.1) The designing tools: science of construction

2.2) The systems resistant to vertical actions (beam and columns systems)

2.3) The systems resistant to horizontal actions (vertical and horizontal bracing; pendulum structures and moment resisting frames)

2.4) Shear type systems (analysis and schematization)

3) Analysis methods

3.1) Traditional methods for shear type structures

3.2) Finite Elements Methods (computational methods)

4) Steel structures:

4.1) Basic properties

4.2) Bending elements

4.3) Tension elements

4.4) Stability problems for compressed elements

4.5) Stability problems for bengding elements. Note

4.6) Compressed/bending elements. Note

4.7) Local instability (buckling). Note

4.8) Connections (bolted, welded). Note

5) Reinforced concrete structures:

5.1) Basic properties

5.2) Compressed elements: analysis and design

5.3) Bending elements: analysis and design

5.4) Shear elements: analysis and design

5.5) Torsion elements: analysis and design. Notes

6) Foundations: basic aspects and typologies

7) Ultimate limit state verifications. Notes

8) Seismic design. Notes

 

 

Readings/Bibliography

P. Pozzati "Teoria e tecnica delle strutture" UTET

E. Giangreco "Ingegneria delle strutture" UTET

E. Torroja "La concezione strutturale" UTET

G. Ballio F. Mazzolani "Strutture in acciaio" HOEPLI

A. Migliacci, F. Mola "Progetto agli stati limite delle strutture in C.A." Masson

A. Chopra "Dynamics of Structures: theory and applications to earthquake engineering" WILEY

 

Teaching methods

Oral lectures with use of blackboard

Practical exercise in classroom with the performing of a specific structural project

 

Power Point Presentation

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] on Health and Safety online

Assessment methods

The assesment will encompass a final exam.

According to the rules of the "corso di studi", in order to access the final exam the student will have to be present to a sufficient numer of classes and have mastered the basic concept of the course "con profitto".

In order to assess the mastering of the basic concepts, the students will have to present their design work in two seminars.

The first seminar is held in the last week of class of April and in this case the students will illustrate their design of a steel structure (5 to 8 marks in case of positive judgement).

The second seminar is held in the last week of class of May and in this case the studdents will illustrate their design of a concrete structure (5 to 8 marks in case of positive judgement).

Once granted the access to the exam, the student will have to sustain an oral exam aimed at assessing the capabilities of the studdent in dimensioning and designing a steel and concrete structure.

The pass of the exam is guaranteed to the students that will show a sufficient capabilty of mastering the information given in class and in particular in using formulas, concepts and quantities necessary to complete a structural design of a building structure (8 to 14 marks depending on the exam preparation of each student).

A higher grade will be given to the studdents that will show to use with confidence the concepts given in class solving complex problems and showing a good operative capability.

Fail can be related to unsufficient knowledge of key concepts, lack of technical language and / or insufficient operative capabilities.

 

Teaching tools

Oral lectures (morning)

Making of two Design projects (afternoon)

Power Point presentations

 

Office hours

See the website of Giada Gasparini