
Description of Individual Course UnitsCourse Unit Code  Course Unit Title  Type of Course Unit  Year of Study  Semester  Number of ECTS Credits  190102001100  REINFORCED CONCRETE  I  Compulsory  1  2  5 
 Level of Course Unit  First Cycle  Objectives of the Course  It is aimed to convey students the basic concepts in relation with the design of various structural reinforced concrete members.  Name of Lecturer(s)  Prof. Dr. Rüstem Gül  Learning Outcomes  1  Interpret behavior of reinforced concrete structural members.  2  Interpret behavior of reinforced concrete structural members.  3  Will be able to extract the relations of simple bending and compound bending.  4  Will be able to extract the relations of simple bending and compound bending.  5  See tests carried out for structural bembers in the structural laboratuary.  6  See tests carried out for structural bembers in the structural laboratuary.  7  Aware of compulsory codes and specifications.  8  Aware of compulsory codes and specifications.  9  Acquainted faced problems in practice.  10  Acquainted faced problems in practice. 
 Mode of Delivery  Daytime Class  Prerequisites and corequisities  None  Recommended Optional Programme Components  None  Course Contents  Introduction and history, mechanical properties of concrete and reinforcement, anchorage and splicing of reinforcement. Flexural behavior, design of members subjected to flexure (rectangular and T beams, beams with compression reinforcement) . Axially loaded columns. Columns subjected to combined axial load and bending. Slender columns. Biaxially loaded columns. Shear. Torsion. Cracks in reinforced concrete and measurements to be taken.  Weekly Detailed Course Contents  
1  History, Advantages and disadvantages of reinforced concrete structures.    2  Materials consisting of RC. Mechanical properties of concrete and reinforcement classes.    3  Bond and anchorage of reinforcement.    4  Loads and load combinations.Determination of structural safety.    5  Design of the members subjected to axial tension or compression loads.    6  Design of members subjected to bending (Rectangular beams with tension reinforcement).    7  Design of members subjected to bending (Rectangular beams with tension and compression reinforcement).    8  Midterm exam    9  Design of members subjected to bending (T beams).    10  Design of members subjected to bending (with different crosssection).    11  Columns subjected to combined axial load and bending.    12  Columns subjected to combined axial load and bending.    13  Biaxially loaded columns.    14  Shear.   
 Recommended or Required Reading  1 Ersoy, U., Özcebe, G., Betonarme, ISBN 9879755031235, Evrim Yayınevi ve Tic. Ltd. Şti., 2001.
2 Celep, Z., Kumbasar, N.," Betonarme Yapılar ", ISBN 9759540533, Beta Dağıtım, İstanbul, 2005.
3 Doğangün A, Betonarme yapıların hesap ve tasarımı, 4. Baskı, Birsen Yayınevi, ISBN: 975511310X, 2008.
4 Nawy, E.G.," Reinforced Concrete A Fundamental Approach", Fourth Edition, ISBN 0130205923, Prentice Hall, New Jersey, 2000.  Planned Learning Activities and Teaching Methods   Assessment Methods and Criteria  
Midterm Examination  1  100  SUM  100  
Final Examination  1  100  SUM  100  Term (or Year) Learning Activities  40  End Of Term (or Year) Learning Activities  60  SUM  100 
 Language of Instruction  Turkish  Work Placement(s)  None 
 Workload Calculation 

Midterm Examination  1  1  1  Final Examination  1  2  2  Self Study  14  8  112  Individual Study for Mid term Examination  1  10  10  Individual Study for Final Examination  1  17  17  
Contribution of Learning Outcomes to Programme Outcomes  LO1  4  3  4  4  3  3  5  3  4  3  4  LO2  4  4  3  3  3  4  3  4  5  4  4  LO3  3  3  4  4  4  4  4  4  3  3  4  LO4  5  4  4  4  5  4  4  3  5  4  3  LO5  4  4  5  5  4  4  5  3  4  4  4  LO6             LO7             LO8             LO9             LO10            
 * Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High 



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