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課程名稱 |
鋼筋混凝土結構行為學
Behavior of Reinforced Concrete Structure |
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開課學期 |
109-1 |
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授課對象 |
工學院 結構工程組 |
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授課教師 |
黃世建 |
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課號 |
CIE7142 |
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課程識別碼 |
521EM7300 |
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班次 |
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學分 |
3.0 |
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全/半年 |
半年 |
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必/選修 |
選修 |
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上課時間 |
星期二2,3,4(9:10~12:10) |
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上課地點 |
土研402 |
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備註 |
本課程以英語授課。
總人數上限:50人 |
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Ceiba 課程網頁 |
http://ceiba.ntu.edu.tw/1091CIE7142_RC |
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課程簡介影片 |
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核心能力關聯 |
核心能力與課程規劃關聯圖 |
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課程大綱
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為確保您我的權利,請尊重智慧財產權及不得非法影印
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課程概述 |
(1) Design Method
(2) Reinforced Concrete Materials
(3) Confined Concrete
(4) Reinforced Concrete Beams Considering Flexure, Shear, and Anchorage
(5) Reinforced Concrete Short Columns Considering Flexure, Shear, and Anchorage
(6) Building Frame Design
Gravity load design
Earthquake resistant design
Behavior and design of beams, columns, and joints
(7) Wall Building Design Considering Flexure and Shear
(8) Earthquake Resistant Bridge Design
System behavior
Beam, column, and joint design
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課程目標 |
The course objective is to develop an understanding of advanced topics in design of reinforced concrete structures. The primary emphasis will be on behavior, analysis, and design of elements and systems that are common in building and bridge structures. |
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課程要求 |
Prerequisite: All students are assumed to have the requisite background given in an undergraduate course on behavior and design of reinforced concrete elements. Consult with the instructor if you are uncertain about your background.
Level of study: Graduate students |
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預期每週課後學習時數 |
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Office Hours |
另約時間 |
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指定閱讀 |
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參考書目 |
(1) Paulay, T., and Priestley, M. J. N., “Seismic Design of Reinforced Concrete and Masonry Buildings,” John Wiley & Sons, New York, 1992.
(2) ACI Committee 318, “Building Code Requirements for Structural Concrete (ACI 318-05) and Commentary (ACI 318R-05),” American Concrete Institute, 2005.
(3) Extensive reference lists will be posted in the web throughout the semester. These lists are provided to enable the interested student to find information to supplement, which is presented in the lectures. Students are not expected to refer to all of these in the course of the semester. Certain key papers will be assigned and posted in the web. Any papers so distributed are considered required reading.
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評量方式
(僅供參考) |
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週次 |
日期 |
單元主題 |
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Week 1 |
9/15 |
1. Course introduction
2. Design concepts
3. Design methods
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Week 2 |
9/22 |
1. Steel Properties
2. Concrete Properties
3. Quality Control of Concrete |
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Week 3 |
9/29 |
1. Mechanical behavior of reinforced concrete
2. Confined column compression behavior
3. Fundamentals of flexure |
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Week 4 |
10/6 |
1. Moment curvature analysis
2. Deflection calculation
3. Rotational capacity of beam
4. Shear transfer mechanism
5. Flexural bond |
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Week 5 |
10/13 |
1. Shear in RC members
2. Truss analogy
3. ACI 318 approach for shear design
4. Detailing of shear reinforcement
5. Softened strut-and-Tie Model |
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Week 6 |
10/20 |
1. Shear behavior of D-region
2. Design of bond
3. Hook and lap splice for seismic loading |
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Week 7 |
10/27 |
1. Cross-sectional analysis of column
2. Column with biaxial bending
3. Column with biaxial shear
4. Term Project format |
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Week 8 |
11/3 |
Reading assignments:
1. Lateral load-displacement curves of intermediate short columns failed in shear
2. Lateral load-displacement curves of columns failed in shear |
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Week 9 |
11/10 |
Midterm |
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Week 10 |
11/17 |
1. Earthquake response of structures
2. Seismic design of building frame
3. Seismic design of beams for flexure |
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Week 11 |
11/24 |
1. Seismic design of beam shear
2. Column design forces - P, V, M
3. Column design - deformability and confinement |
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Week 12 |
12/1 |
1. Modeling of column
2. Behavior of beam-column joint
3. assessment of beam-column joint |
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Week 13 |
12/8 |
1. Design of beam-column joint
2. System behavior of wall buildings
3. Seismic design consideration of wall buildings |
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Week 14 |
12/15 |
1. Flexure, bond and shear in walls
2. Flexural and shear design of walls
3. Seismic design of special shear wall |
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Week 15 |
12/22 |
1. Squat wall and wall with opening (Reading Assignment)
2. Coupled wall design
3. Alternative design of RC Coupling beams |
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Week 17 |
12/29 |
1. Seismic design considerations for bridges
2. Bridge column design and detailing
3. Bridge joint and foundation design |
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