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Course Information
Course Name
Turkish
Yapısal Analiz ve Tasarım I
English
Structural Analysis& Design I
Course Code
MIM 208E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
3
3
2
2

Course Language
English
Course Coordinator
Halet Almıla Büyüktaşkın
Course Objectives
1. Develop an understanding of basic concepts in structural analysis such as equilibrium, stability, static determinacy and indeterminacy.
2. Develop an understanding of system behavior by analyzing internal forces diagrams.
3. Introduce the basic principles of mechanics regarding work and energy, and their uses in structural engineering.
4. Introduce the methods used in the analysis of structures within the frameworks of force and displacement formulations.
5. Provide the knowledge of steel behavior as a structural material and advantages/disadvantages.
6. Teach the structural design of steel connections and connection members/design.
7. Provide knowledge for design of beams subjected to tension and/or bending
8. Provide knowledge for design of steel elements subjected to compression.
9. Teach the arrangement of steel trusses and design rules.
10. Teach the multistorey steel buildings arrangements and to emphasize with examples.
Course Description
Within the context of the course; concept of structural determinacy and indeterminacy, internal force distribution in determinate systems (continuous beams with hinges, three hinged frames and arches), truss configurations for large spans, deflection problems of beams and frames under gravity and/or lateral forces, internal force distribution in indeterminate systems and important rules to configure a regular structural system are given with examples of various structural systems. At the end of the course, students are expected to be capable of configuring proper structural systems with their approximate crosssectional dimensions. And also within the context of the course; properties of steel as a structural material, sections used in steel structures, Load and Resistance Factored Design(LRFD)/Allowable Strength Design(ASD), Design of Steel Structural members under tension, compression and bending effects, Connection (Hinged and moment resisting connections) design, Design of steel trusses, Frames, Steel slab systems, Arrangement of stability elements in vertical and horizontal planes, Composite structures, Tall steel buildings are evaluated. At the end of the course, students are expected to be capable of configuring steel structural systems in their architectural projects.
Course Outcomes
1. Learn the basic concepts in structural analysis and to evaluate them.
2. Learn to obtain the internal forces diagrams of a system and to evaluate systems behavior by analyzing its internal forces diagrams.
3. Learn the basic principles of mechanics and their uses in structural engineering.
4. Learn to use force and displacement based methods for structural analysis and to evaluate the outcomes from these analysis methods.
5. Obtain the knowledge on the behavior of steel material.
6. Have the knowledge about steel connection methods and ability to design connection members.
7. Solve the design and control problems of steel members subjected to tension.
8. Solve the design and control problems of steel members subjected to compression.
9. Have the knowledge of basic design rules of structural steel members subjected to bending.
10. Design steel trusses and joint details.
11. Have the knowledge on multistory steel structures design.
Prerequisite(s)
MIM 106E Structural Mechanics min DD
Required Facilities
Other
Textbook
Other References
 Dinkler, D., Grundlagen der Baustatik, Springer Vieweg, 2019, ISBN: 9783658238384
 Hibbeler, R.C., Structural Analysis (10th Edition), Prentice Hall, 2018, ISBN: 9780134610672
 Girgin, K., Aksoylu, M.G., Darılmaz, K. Durgun, Y., Yapı Statiği İzostatik Sistemler, Birsen Yayınevi, 2017, ISBN: 9789755115559
 Girgin, K., Aksoylu, M.G., Darılmaz, K. Durgun, Y., Yapı Statiği Hiperstatik Sistemler, Birsen Yayınevi, 2017, ISBN: 9789755115641
 Çelik Yapıların Tasarım, Hesap ve Yapımına Dair Esaslar, 2016.
 Boake, T.M., 2015. Architecturally Exposed Structural Steel, Specifications, Connections, Details, Birkhauser, ISBN. 9783038214830.
 Deren, H., Uzgider, E., Piroğlu, F., Çağlayan, Ö., 2012. Çelik Yapılar, Çağlayan Kitabevi.
 Boake, T.M., 2012. Understanding Steel Design, An Architectural Design Manual, Birkhauser, ISBN. 9783034602693.
 Türkiye Bina Deprem Yönetmeliği, 2018
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