Reinforced Concrete Structures I

Structural Mechanics. Strength of Materials. Structural Theory.

In classes, the expository and inquisitive method is used and exercises are solved individually.

Students can also carry out practical work of technical-scientific interpretation and research.

The students will be followed up by clarifying doubts and solving exercises.

Presentation of the principles, theories and models for analysis and design of reinforced concrete structural elements. I discussed and applied the provisions of the Eurocodes. Start students in solving problems in the design of reinforced concrete sections and their foundation. Develop the ability to collect, select and interpret current information (standards and other bibliography) within the contents of the course. Know the theory and practice related to the design of sections of resistant elements (beams and columns) of reinforced concrete structures of current buildings. Present designed parts that allow the correct execution of the dimensioned elements on site. Develop critical capacity in relation to the solutions found.

Chapter 1 – Bases of design and structural security. Principles of structural security. Eurocodes. Structural project. Structure of a building. Structural security. Analysis and design methods.

Chapter 2 – Actions, combinations and properties of materials. Concrete: classification and constitutive relationships.

Chapter 3 – Dimensioning of elements. Axial effort and flexion effort. Sections subjected to axial stress. Sections subjected to simple flexion. Sections subjected to compound flexion.

Chapter 4 – Concrete beams. Transverse effort. Behavior analysis. Security dimensioning and verification. Constructive provisions.

Chapter 5 – Design of columns. Buckling of pillars. Constructive provisions.

NAO

[1] EC0. NP EN 1990, (2009). Eurocódigo – Bases para o projecto de estruturas, European Committee for Standardization (CEN).
[2] EC1. NP EN 1991-1-1, (2009). Eurocódigo 1: Acções em estruturas − Parte 1-1: Acções gerais. Pesos volúmicos, pesos próprios, sobrecargas em edifícios, European Committee for Standardization (CEN).
[3] EC2. NP EN 1992-1-1,(2010). Eurocódigo 2: Projecto de estruturas de betão − Parte 1-1: Regras gerais e regras para edifícios, European Committee for Standardization (CEN).
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[5] NP EN 13670, (2011) Execução de estruturas em betão.
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[19] J. D’Arga e Lima, (2004), Betão Armado – Armaduras. Aspectos Gerais (MN 6), LNEC.
B. Cresswell Riol, editor. (2006), Standard Method of Detailing Structural Concrete – A Manual for Best Practice, 3th Edition. The Institution of Structural Engineers / Concrete Society. London