Number of hours
- Lectures 6.0
- Projects -
- Tutorials 6.0
- Internship -
- Laboratory works -
- Written tests 4.0
ECTS
ECTS 0.8
Goal(s)
- Design and check the longitudinal and transverse reinforcement of a reinforced concrete beam according to Eurocode 2.
THIS COURSE IS FULLY DELIVERED IN APP (PROJECT-BASED LEARNING)
Content(s)
1. Introduction - BA principle
1.1 History of reinforced concrete
1.2 Why reinforced concrete?
1.3 Reinforcement principle - definitions
1.4 Applications (TD)
2. Steel and concrete materials
2.1 Concrete
2.2 Steel
3. Durability and safety
3.1 Durability (environmental conditions, coatings, etc.)
3.2 Safety (chaining, minimum cross-sections, vacuum thrust, etc.)
4. Combination of steel and concrete
4.1 Adhesion
4.2 Anchorages
4.
3 Recoveries
4.4 Miscellaneous constructive provisions
5. Flexing at the ELU
5.1 Introduction
5.2 Modeling
5.3 Assumptions
5.4 Sizing of reinforcement
6. ELS bending
6.1 Introduction
6.2 Stress calculation
6.3 Crack control
6.4 Calculation of arrows
7. Shear force
7.1 Calculation of tangential stresses
7.2 Application to reinforced concrete
7.3 Checking shear forces
7.4 Consequences on longitudinal reinforcement (shifting of the bending moment curve, anchoring of the connecting rods, drawing of the purlin, discussions on the "teta" side) etc.
- Material Resistance Course: calculation of stresses on isostatic structures, and geometric characteristics of sections;
- Introductory course to the Eurocodes.
Test
APP, EXAM
Calendar
The course exists in the following branches:
- Curriculum - GGC - Semester 7
Additional Information
Course ID : KAGG7M08
Course language(s): 
You can find this course among all other courses.
Bibliography
Dimensionnement des structures en béton selon l'Eurocode 2, de la descente de charges aux plans de ferraillage. D. Ricotier. Editions du Moniteur.