Course Information

Course Unit Title	:	RC Highrise Buildings
Course Unit Code	:	01INS5111
Type of Course Unit	:	Optional
Level of Course Unit	:	Second Cycle
Year of Study	:	1
Semester	:	1.Semester
Number of ECTS Credits Allocated	:	6,00
Name of Lecturer(s)	:
Course Assistants	:
Learning Outcomes of The Course Unit	:	1) Comprehend the basic principles to select the load bearing systems for earthquake resistant design of the reinforced concrete (RC) high-rise buildings. 2) Understand the importance of ductility concept related to seismic design code of Turkey. 3) Understand solution techniques and design principles of reinforced concrete (RC) high-rise buildings under static and dynamic loads.
Mode of Delivery	:	Face-To-Face
Prerequisities and Co-requisities Courses	:	Unavailable
Recommended Optional Programme Components	:	Unavailable
Course Contents	:	Introduction to the reinforced concrete (RC) high-rise buildings, Load carrying systems in high-rise building, Design principles for the high rise buildings, Ductility concept and realization on the high rise buildings, The considered loads in the design of high-rise buildings, Shear wall framed system subjected to statically equivalent earthquake loads, Dynamical analysis of the high-rise building by using modal analysis, Earthquake resistant design of the shear wall structures, The dynamic models of RC shear wall structures with bracing beams, Load carrying systems under torsional effects.
Languages of Instruction	:	Turkish
Course Goals	:
Course Aims	:	To learn the analyze methods and earthquake resistant design of the reinforced concrete (RC) high-rise buildings.
WorkPlacement		Not Available

Recommended or Required Reading

Textbook	:
Additional Resources	:	1. K. �zden, Betonarme Y�ksek Yap�lar, �T� �n�. Fak. Matbaas�, 1993. 2. Z. Hasg�r, A. N. G�nd�z, Betonarme �ok Katl� Yap�lar, Beta Da��t�m, 1996. 3. E. At�mtay, Betonarme Sistemlerin Tasar�m�, Cilt I-II, 2000. 4. 2007 Deprem Y�netmeli�i, Bay�nd�rl�k ve �skan Bakanl��, 2006. 5. TS 500 Betonarme Yap�lar�n Tasar�m ve Yap�m Kurallar�, 2000.

Material Sharing

Documents	:
Assignments	:
Exams	:
Additional Material	:

Planned Learning Activities and Teaching Methods

Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)

ECTS / Table Of Workload (Number of ECTS credits allocated)

Student workload surveys utilized to determine ECTS credits.

Activity

Number

Duration

Total

Course Duration (Excluding Exam Week)

Time Of Studying Out Of Class

Homeworks

Presentation

Project

Lab Study

Field Study

Visas

Finals

Workload Hour (30)

Total Work Charge / Hour

174

Course's ECTS Credit

Assessment Methods and Criteria

Studies During Halfterm

Number

Co-Effient

Visa

Quiz

Homework

Attendance

Application

Lab

Project

Workshop

Seminary

Field study

TOTAL

100

The ratio of the term to success

The ratio of final to success

TOTAL

100

Weekly Detailed Course Content

Week	Topics
1	Introduction to the reinforced concrete (RC) high-rise buildings,

2	Load carrying systems in high-rise building; Wind, earthquake and other loads,

3	The considered loads in the design of high-rise buildings,

4	Shear wall framed system subjected to statically equivalent earthquake, loads,

5	Shear wall framed system subjected to statically equivalent earthquake, loads,

6	Ductility concept and realization on the high rise buildings,

7	Ductility concept and realization on the high rise buildings,

8	Design of RC shear wall structures with bracing beams,

9	Dynamical analysis of the high-rise building by using modal analysis,

10	MIDTERM

11	Dynamical analysis of the high-rise building by using modal analysis,

12	Torsional effects and other irregularities of the high rise buildings,

13	The other uncertainties effected on the dynamic response of structures,

14	Foundation types in high-rise buildings.