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A platform for research: civil engineering, architecture and urbanism
Teaching earthquake-resistant structural systems in architecture department: a hands-on learning experience
This paper addresses challenges in teaching earthquake-resistant structural systems to architecture students and seeks to enhance efficiency. Developing a compatible teaching approach is crucial for better collaboration with engineers. The impact of a lack of knowledge about earthquake-resistant systems is more evident in quake-prone regions. The study highlights the importance of hands-on experience in teaching structural theory, fostering better learning and comprehension. The study showcases an undergraduate-level course that diverged from traditional exams. Instead, students undertook a project where groups designed scaled models representing different structural responses, which underwent testing on a handmade shake table. Analysis highlighted demonstrations of various responses like soft stories, dynamic behaviour, pounding and weak columns. The hands-on approach enriched students’ practical insights into structural behaviour, aiding informed design choices. This approach enhances overall learning, deepens comprehension, and readies students to apply seismic design principles conscientiously. Learning by doing proves pivotal in mastering earthquake-resistant structural systems.
Teaching earthquake-resistant structural systems in architecture department: a hands-on learning experience
This paper addresses challenges in teaching earthquake-resistant structural systems to architecture students and seeks to enhance efficiency. Developing a compatible teaching approach is crucial for better collaboration with engineers. The impact of a lack of knowledge about earthquake-resistant systems is more evident in quake-prone regions. The study highlights the importance of hands-on experience in teaching structural theory, fostering better learning and comprehension. The study showcases an undergraduate-level course that diverged from traditional exams. Instead, students undertook a project where groups designed scaled models representing different structural responses, which underwent testing on a handmade shake table. Analysis highlighted demonstrations of various responses like soft stories, dynamic behaviour, pounding and weak columns. The hands-on approach enriched students’ practical insights into structural behaviour, aiding informed design choices. This approach enhances overall learning, deepens comprehension, and readies students to apply seismic design principles conscientiously. Learning by doing proves pivotal in mastering earthquake-resistant structural systems.
Teaching earthquake-resistant structural systems in architecture department: a hands-on learning experience
Karadag, Omer (author) / Canakcioglu, Nevset Gul (author)
Architectural Science Review ; 67 ; 332-344
2024-07-03
13 pages
Article (Journal)
Electronic Resource
English
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