Reinforced Concrete I
This course has the purpose of providing basic information on reinforced concrete structures, focusing namely on the durability of reinforced concrete and on the design approach adopted in the Eurocodes, based on the verification of safety to limit states.In the course, the analysis of structural elements (e.g. ties, beams and columns) is presented using the concept of ultimate and serviceability limit states. Detailing of such elements is also addressed.
Attention is also given to the design and detailing of reinforced concrete structures under seismic and fire actions.
António Manuel Pinho Ramos, Valter José da Guia Lúcio
Weekly - 7
Total - Available soon
It is assumed that the students have acquired the concepts taught in Strength of Materials I and II.
- EN1990 – Eurocode Bases of Structural Design.
- EN1991-1 - Eurocode 1 – Actions on structures.
- EN1992-1-1 - Eurocode 2 – Design of concrete structures.
- EN1998-1 - Eurocode 8 – Design of structures for earthquake resistance.
- Presentations of the classes.
Reinforced Concrete Structures I has two lectures classes each week with 2:30h each.
In the lectures classes the subjects are presented and the students solve practical problems with the guidance of the professor.
The evaluation will be done with basis on a final exam, exercises and the problems solved by the students in the classes.
The evaluation of knowledge has two components: one done by works and classroom participation of the student during the semester and the other by two minitests or final exam.
Written minitests NE = (1stMT + 2ndMT)/2, grade = 0 to 20 (≥ 7.5).
Written exam NE, grade = 0 to 20 (≥ 7.5).
3. Works and classroom participation
Problem solving sessions Ac ≥ 7.5 Ac = 0 to 20.
4. Final Grade = 0.8 x NE + 0.2 x Ac
Students with a final grade greater than 16 must do an oral exam.
1. Introduction to reinforced concrete
3. Material properties
4. Limit state safety approach
6. Ultimate limit state of strength to tension and compression
7. Ultimate limit state of strength to bending
8. Ultimate limit state of strength to shear
9. Constructive specifications for beams
10. Limit state of cracking
11. Limit state of deformation
12. Ultimate limit states of strength to bending plus axial force and to asymmetric bending.
13. Ultimate limit states induced by structural deformation
14. Constructive specifications for columns
15. Calculation and detailing of resisting walls
16. Ultimate limit state of strength to torsion
Programs where the course is taught: