課程資訊
課程名稱
 土木工程設計實務
Civil Engineering Capstone Challenge 
開課學期
 109-2 
授課對象
 土木工程學系  
授課教師
 張家銘 
課號
 CIE3048 
課程識別碼
 501 34130 
班次
 01 
學分
 3.0 
全/半年
 半年 
必/選修
 必修 
上課時間
 星期四7,8,9(14:20~17:20) 
上課地點
 土研407 
備註
 初選不開放。請預先報名,以利加簽作業。
限本系所學生(含輔系、雙修生)
總人數上限:20人 
Ceiba 課程網頁
 http://ceiba.ntu.edu.tw/1092CIE3048_01 
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課程概述

本課程「土木工程設計實務」旨在讓同學面對了解耐震設計之重要性,透過實驗的手段,強化學生於結構動力相關之基礎知識,從簡單之單自由度、多自由度實驗,應用至數值模型之建立與分析,最後面向耐震設計等議題。
The objective of this “Civil Engineering Capstone Challenge” class is to demonstrate the importance of seismic design to students and to train students about the fundamentals of structural dynamics from experimental approaches. This class will begin with the experimental testing for a SDOF structure. Then, students should apply knowledge learnt from SDOF structures to the experimental testing of MDOF structures. After understanding of MDOF structures, students will perform modeling and dynamics analysis of real-world structures as well as carry out seismic design of these structures.
 

課程目標
 本學期將使用台大土木與國震中心之實驗能量,運用振動台與縮尺結構試體,了解結構動力與地震工程之重要性,並由觀察後的結果,運用於數值模擬與結構分析,最後延伸至耐震設計。學生團隊的任務包含:
In this semester, the testing capability owned by NTU-CE and NCREE will allow students testing small-scale structures by shake table testing as well as understanding the fundamentals of structural dynamics and earthquake engineering. The integration of experimental findings, numerical modeling and simulation, and structural dynamic analysis will direct students to learn the basic ideas of earthquake engineering. The tasks that students should conduct include:
a. 分析振動台獲得之實驗數據 ,獲取結構之動力模態參數
b. 推導結構之相關參數,進行結構之模態分析,並與實驗數據比對
c. 設計與製作建築結構之縮尺模型,利用振動台實驗,比對該模型之動力參數
d. 進行簡諧與地震外力輸入之實驗,利用數值模擬與分析,比對結構之數值與實際模型之動力行為
e. 藉由結構分析軟體工具,設計一簡單耐震建築

a. Analyzing experimental data from shake table testing and acquiring modal properties of structures
b. Deriving structural parameters (e.g., stiffness and damping), performing modal analysis, and comparing numerical results with experimental outcomes
c. Designing and fabricating a small-scale MDOF building structure and comparing the dynamic characteristics of this small-scale building with experimental results
d. Conducting dynamic experiments of structures under harmonic and seismic excitations and comparing of dynamic behavior between numerical and experimental approaches
e. Designing a simple structure against earthquakes through structural analysis software
 
課程要求
 待補 
預期每週課後學習時數
  
Office Hours
  
指定閱讀
 待補 
參考書目
 待補 
評量方式
(僅供參考)
    
課程進度
週次
日期
單元主題
第1週
 2/25  Intro to Structural Dynamics 
第2週
 3/04  (Experiment) Natural Frequency and Damping 
第3週
 3/11  Free Vibration and Harmonic Excitation 
第4週
 3/18  (Experiment) Harmonic Excitation 
第5週
 3/25  Transfer Function and Frequency Response Function 
第6週
 4/01  No Class 
第7週
 4/08  Calculation of Experimental Transfer Function and Fourier Transform 
第8週
 4/15  Eigenvalue Problem and Modal Properties 
第9週
 4/22  (Experiment) Natural Frequencies and Mode Shapes 
第10週
 4/29  Free Vibration and Harmonic Excitation 
第11週
 5/06  Make Your Own Building 
第12週
 5/13  Transfer Function and Frequency Response Function 
第13週
 5/20  (Experiment) System Identification 
第14週
 5/27  Time-Domain Responses 
第15週
 6/03  (Experiment) Earthquake Response Prediction 
第16週
 6/10  Make Your Own Building (ETABS) 
第17週
 6/17  Make Your Own Building (MATLAB) 
第18週
 6/24  Final Presentation