Course Name Code Semester T+U Hours Credit ECTS
Non-Linear Analysis Of Reinforced Concrete Struc. INM 503 0 3 + 0 3 6
Precondition Courses
Recommended Optional Courses
Course Language Turkish
Course Level yuksek_lisans
Course Type Optional
Course Coordinator Prof.Dr. NACİ ÇAĞLAR
Course Lecturers
Course Assistants

Araş. Gör. Gamze Demirtaş

Course Category Field Proper Education
Course Objective

In order to better understand the behavior of reinforced concrete structures, it is necessary to understan the nonlinear behavior. In order to understand the behaviors of reinforced concrete structures, it is important to understand the behaviors of reinforced concrete sections.

Course Content

Nonlinear Analysis and Methods of Reinforced Concrete Structures,  Material Behavior and Material Models, Confined Concrete and Concrete Material Models, Moment-Curvature Relationship, Plastic Hinge Hypothesis,

# Course Learning Outcomes Teaching Methods Assessment Methods
1 Applies the solution methods of nonlinear systems Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
2 Reviews of Material Behavior Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
3 Know material models and set up models Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
4 Uses the Moment-Curvature Relation and comments Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
5 Applied Plastic Hinge Hypothesis Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
6 apply the nonlinear behavior of reinforced concrete structures Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
7 investigate the nonlinear behavior of reinforced concrete structures Lecture, Question-Answer, Drilland Practice, Problem Solving, Testing, Homework,
Week Course Topics Preliminary Preparation
1 Introduction to Nonlinear Behaviour
2 Sequential Approximation Methods in the Solution of Nonlinear Systems
3 Load Increment Methods in the Solution of Nonlinear Systems
4 Load Increment Methods in the Solution of Nonlinear Systems
5 Material Behaviour and Material Models
6 Confined Concrete and Concrete Material Models
7 Moment-Curvature Relationship
8 Moment-Curvature Relationship
9 Plastic Hinge Hypothesis
10 Plastic Hinge Hypothesis
11 Sample Structure Analysis, reinforced concrete bridge footing
12 Sample Structure Analysis, reinforced concrete bridge footing (cyclic load)
13 Sample Structure Analysis, single storey single span reinforced concrete building
14 Sample Building Analysis, multi-storey reinforced concrete building
Resources
Course Notes <p>[1] Ders notları ABİS servisi &uuml;zerinden dersi veren &ouml;ğretim &uuml;yesi tarafından eklenmektedir.<br /> [2] &Ouml;zer E, Ders notu, yapı sistemlerinin lineer olmayan analizi.</p>
Course Resources

[1] Celep Z, Betonarme Taşıyıcı Sistemlerde Doğrusal olmayan Davranış ve Çözümleme, Beta
Yayıncılık, İstanbul, 2007.
[2] Canbay E, Ersoy U, Özcebe G, Sucuoğlu H ve Wasti ST, Binalar İçin Deprem Mühendisliği / Temel İlkeler, Evrim Yayınları 2012.

Order Program Outcomes Level of Contribution
1 2 3 4 5
1 ability to access wide and deep information with scientific researches in the field of Engineering, evaluate, interpret and implement the knowledge gained in his/her field of study X
2 ability to complete and implement “limited or incomplete data” by using the scientific methods. X
3 ability to consolidate engineering problems, develop proper method(s) to solve and apply the innovative solutions to them X
4 ability to develop new and original ideas and method(s), to develop new innovative solutions at design of system, component or process
5 gain comprehensive information on modern techniques, methods and their borders which are being applied to engineering X
6 ability to design and apply analytical, modelling and experimental based research, analyze and interpret the faced complex issues during the design and apply process X
7 gain high level ability to define the required information and data X
8 ability to work in multi-disciplinary teams and to take responsibility to define approaches for complex situations
9 systematic and clear verbal or written transfer of the process and results of studies at national and international environments
10 aware of social, scientific and ethical values guarding adequacy at all professional activities and at the stage of data collection, interpretation, and announcement
11 aware of new and developing application of profession and ability to analyze and study on those applications X
12 ability to interpret engineering application’s social and environmental dimensions and it’s compliance with the social environment
Evaluation System
Semester Studies Contribution Rate
1. Ara Sınav 35
1. Ödev 10
2. Ödev 10
3. Ödev 10
4. Ödev 35
Total 100
1. Yıl İçinin Başarıya 70
1. Final 30
Total 100
ECTS - Workload Activity Quantity Time (Hours) Total Workload (Hours)
Course Duration (Including the exam week: 16x Total course hours) 16 3 48
Hours for off-the-classroom study (Pre-study, practice) 16 2 32
Mid-terms 1 10 10
Assignment 4 15 60
Final examination 1 10 10
Total Workload 160
Total Workload / 25 (Hours) 6.4
dersAKTSKredisi 6