The main objective of the course is to develop knowledge and skills necessary for the design of a variety of important reinforced and prestressed concrete members and structures as listed in the course content. The focus is placed on using fundamental principles (flow of forces, compatibility of deformations, stress-strain relationships, equilibrium) to solve different design problems from 1D (beams and girders) to 3D members and structures (spread footings, pile caps and wall systems). In this manner, the course develops a fundamental understanding of structural design which the students can apply to any other type of concrete structures not covered in the syllabus.
Prerequisiti
Familiarity with concepts and applications of equilibrium, compatibility, and stress-strain relationships. Undergraduate-level knowledge of statics, solid mechanics, structural analysis, reinforced concrete mechanics.
Metodi didattici
To maximize the learning outcome, the course will use a variety of different teaching methods. The classes will include a combination of slide presentations, blackboard lectures, solved demonstration problems, individual and group work of the students for solving challenging problems, video materials, and critical analysis of reading materials in the classroom. The students will participate actively by using first principles to solve analysis and design problems which are aimed at providing an important insight into the behavior of concrete structures. They will be guided towards the final solution by solving intermediate problems with increasing complexity.
Verifica Apprendimento
The evaluation will be based on homework assignments (30%) and a written final exam (70%). The final exam will consist of two parts: exercises (open book) and theory (closed book); only paper material and traditional calculators will be allowed during the open book exercise part, no electronic or communication devices.
Testi
R. Park R and T. Paulay, Reinforced Concrete Structures, John Wiley & Sons, 1975 T. Paulay and M.J.N. Priestley, Seismic Design of Reinforced Concrete and Masonry Structures, John Wiley & Sons, 1992 M.P. Collins and D. Mitchell, Prestressed Concrete Structures, Response Publications, Canada, 1997 A.E. Naaman, Prestressed Concrete Analysis and Design - Fundamentals, Techno Press 3000, 2012
Contenuti
1. Strut-and-tie design of slender beams/members 2. Design for torsion 3. Design of deep beams 4. Design of joints and connections 5. Design of wall structures 6. Axial behavior of prestressed members 7. Flexural behavior of prestressed members 8. Design of prestressed beams 9. Calculation of prestress losses 10. Design of slabs 11. Design of foundations
