週次 |
日期 |
單元主題 |
Week 1 |
9/13 |
1. Course instruction
2. Syllabus
3. Design concept |
Week 2 |
9/20 |
1. Steel properties
2. Concrete properties
3. Quality control of concrete
|
Week 3 |
9/27 |
1. Mechanical Behavior of Reinforced Concrete
2. Confined Column Compression Behavior
3. Fundamentals of Flexure |
Week 4 |
10/04 |
makeup classes for the typhoon day-off on 9/27 |
Week 5 |
10/11 |
1. Moment curvature analysis
2. Deflection calculations / plastic hinge concept
3. Flexure in floor systems |
Week 6 |
10/18 |
1. Shear transfer
2. Flexural bond
3. Shear in RC members
4. Truss analogy
5. ACI 318 approach
6. Detailing of shear |
Week 7 |
10/25 |
Exam #1 |
Week 8 |
11/01 |
1. Strut-and-tie model
2. Design for bond
3. Design for anchorage |
Week 9 |
11/08 |
1. Cross-sectional analysis of column
2. Column with biaxial bending
3. Column with biaxial shear
4. Term project report |
Week 10 |
11/15 |
NTU Anniversary Celebration |
Week 11 |
11/22 |
1. Earthquake response of structure
2. Seismic design of building frame
3. Seismic design of beams for flexure |
Week 12 |
11/29 |
1. Exam #2
2. Seismic design of beam shear |
Week 13 |
12/06 |
1. Column Design Forces - P, V, M
2. Column Design - Deformation and Confinement
3. Behavior of Beam-Column Joint |
Week 14 |
12/13 |
1. Design of beam-column joints
2. Seismic assessment and retrofit of beam-column joints
3. Seismic design considerations for wall buildings |
Week 15 |
12/20 |
1. Flexure, bond, shear in wall
2. Wall flexural design
3. Wall shear design
4. Design of boundary element
5. Seismic design of shear wall |
Week 16 |
12/27 |
Design of coupled wall system |
Week 17 |
1/03 |
Term project presentation |