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Reinforced and Pre-Stressed Concrete

Course Code: IC3103 • Study year: III • Academic Year: 2021-2022
Domain: Civil Engineering • Field of study: Architecture and town planning
Type of course: Compulsory
Language of instruction: Romanian
Erasmus Language of instruction: English
Name of lecturer: Adina Ana Muresan
Seminar tutor: Adina Ana Muresan
Form of education Full-time
Form of instruction: Lecture
Number of teaching hours per semester: 56
Number of teaching hours per week: 4
Semester: Autumn
Form of receiving a credit for a course: Grade
Number of ECTS credits allocated 5

Course aims:

The development of skills required to design reinforced concrete structures.
The development of skills required to comply with the safety requirements of reinforced concrete structures.
The development of skills required to comply with the durability requirements of reinforced concrete structures.

Course Entry Requirements:

Mechanics, Building Materials, Strength of Materials I, Strength of Materials II, Statics and Buildings Stability.

Course contents:

Course content 1. Introduction. Actions in buildings. Failure of structures. The limit state design principles. 2. Reinforced concrete. Types of concrete. Types of rebars. The concrete strength classes. The reinforcement strength classes. Deformations. 3. The working stages of reinforced concrete. 4. The design of reinforced concrete beams. The resistant bending moment. Rectangular simple reinforced cross sections. 5. The behaviour and the design of reinforced concrete beams under shear force. 6. Reinforced concrete beams under torsion. 7. Constructive rules for reinforced concrete beams. 8. The design of reinforced concrete slabs. 9. The design of reinforced concrete columns. 10. Pre-stressing methods. 11. Materials used for pre-stressed concrete. Adhension and anchorage of pre-stressed reinforcement. The determination of the pre-stressing force. The determination of stress losses. The state of stress after pre-stressing and the external loads of pre-stressed elements under bending. 12. The ultimate limit state of normal reinforced concrete elements. The determination of cross section transmission areas. Laboratory content 1. Mechanical experiments on reinforced concrete elements. 2. Assignment no. 1: The design of reinforced concrete beam. 3. Assignment no. 2: The design of a two-way reinforced concrete slab. 4. Assignment no. 3: The design of a reinforced concrete column

Teaching methods:

Presentation, discussions, case studies, practical applications

Learning outcomes:

The specific competences acquired by the students after passing the subject: - Knowledge of the physical and mechanical properties of reinforced concrete. - Acknowledging different types of structural elements belonging to reinforced concrete constructions. - Knowledge of the ultimate states of steel structures. - Knowledge of the design rules of Eurocode 2. - Design of reinforced concrete structural elements under different loads. - Knowledge of design methods of reinforced concrete elements. - Knowledge of constructive rules for reinforced concrete structural elements.

Learning outcomes verification and assessment criteria:

Theoretical exam (50% of the final grade): Oral examination. Examination during the semester (50% of the final grade): Assignments during the semester.

Recommended reading:

EN 1992-1-1, Eurocode 2: „Design of concrete structures”. Part1-1: „General rules and rules for buildings”. 2006, 214.
EN 1990, Eurocode 0: „Basis of structural design”. 2004, 76.
EN 1991-1-1, Eurocode 1: „Action on structures”. Part 1-1: „General actions – Densities, self-weight, imposed loads for buildings”. 2004, 38.
EN 1991-1-3, Eurocode 1: „Action on structures”. Part 1-3: „General actions – Snow loads”. 2005, 52.
EN 1991-1-4, Eurocode 1: „Action on structures”. Part 1-4: „General actions – Wind actions”. 2006, 138.
EN 1998-1, Eurocode 8: „Design of structures for earthquake resistance”. Part 1: „General rules, seismic actions and rules for buildings”. 2004, 231.