Oral Buyukozturk教授

助教

Oguz Gune

课程时数

课堂授课：每周2节，每节1.5小时
实习课：每周1节，每节1小时

目标

此课程主旨在于提供学生结构工程设计理论上一扎实的基础。学生将会接触到混凝土及钢结构在单一杆件与系统层面上的设计分析理论与观念。透过题组与广泛的设计专题，将可得到亲自设计的经验与技巧，亦可建立起对实际开放式设计议题的了解。除了一般课程外，每周将有实习课与专题演讲。

研究主题

1. 规划与设计步骤
2. 材料与结构设计规范
3. 荷重与设计安全性
4. 结构杆件设计
   • 混凝土杆件
   • 钢结构杆件
   • 结构接和
     
     
5. 设计基础之近似分析法
6. 系统设计概念
7. 涵盖设计专题之专题讨论
   • 绳索结构
   • 预力混凝土桥梁
   • 建造与结构控制
   • 防火
     

教科书目

Nilson, A. H.，《混凝土结构设计》第13版，McGraw Hill，2004年出版（中文版：钢筋混凝土设计，曹瑞棋译，高立发行，ISBN：957-493-442-X ，2001）

McCormac, J.C., Nelson, J.K. Jr.，《钢结构设计》第3版，Prentice Hall, N.J., 2003年出版（中文版：钢结构设计，刘文玉译，大行，民71）

参考书目

• Galambos, T.V., Lin, F.J., Johnston, B.G.，《基础钢结构LRFD设计》，Prentice Hall, 1996出版
• Segui, W. T.，《LRFD钢结构设计》，第2版，PWS Publishing，Boston.
• Salmon, C.G.与Johnson, J.E.，《钢结构：设计与行为》，第3版，Harper & Row，Publishers，New York，1990出版
• MacGregor, J. G.，《钢筋混凝土：力学与设计》，第3版，Prentice Hall，New Jersey，1997出版
• Nawy, E. G.，《钢筋混凝土：基本入门》，第5版，Prentice Hall，New Jersey.
• Wang C-K.与Salmon, C. G.，《钢筋混凝土设计》，第6版，Addison Wesley，New York（中文版，钢筋混凝土设计，王权铭译，东华，民89）
• Nawy, E. G.，《预力混凝土：基本入门》，Prentice Hall，NJ，2003出版
• PCI，《PCI设计手册：预铸与预力混凝土》，Precast/Prestressed Concrete Institute，IL，1992出版
• Smith, J. C.，《结构分析》，Harpor and Row，Publishers，New York
• W. McGuire, R. H. Gallagher与R. D. Ziemian，《矩阵结构分析》，第2版，John Wiley and Sons，2000出版
• ACI，《混凝土结构建筑规范（ACI 318-99）与评论（ACI 318R-99）》，American Concrete Institute，1999出版
• AISC，《荷重与抵抗系数设计－钢结构施工手册》，American Institute of Steel Construction
• AISC，《荷重与抵抗系数设计－钢结构建筑说明》，American Institute of Steel Construction
• ICC，《国际建筑规范》，International Code Council, Inc.，2000出版
• ASCE，《建物与其它结构之最小设计荷重，ASCE7-02》，American Society of Civil Engineers，Virginia，2002出版
• SAP2000分析与指导，计算机与结构

致谢

Professor Oral Buyukozturk

Teaching Assistant

Oguz Gunes

Course Meeting Times

Lectures: 每周2节, 每节1.5小时
Recitations: 每周1节, 每节1小时

Subject Objective

This class aims at providing students with a solid background on principles of structural engineering design. Students will be exposed to the theories and concepts of both concrete and steel design and analysis both at the element and system levels. Hands-on design experience and skills will be gained and learned through problem sets and a comprehensive design project. An understanding of real-world open-ended design issues will be developed. Weekly recitations and project discussions will be held besides lectures.

Topics of Study

1. Planning and Design Process
2. Materials and Structural Design Criteria
3. Loads and Design Safety
4. Design of Structural Elements
   • Concrete Elements
   • Steel Elements
   • Structural Joints
     
     
5. Approximate Analysis Methods as a Basis for Design
6. System Design Concepts
7. Special Topics that may be Covered as Part of the Design Project Discussions
   • Cable Structures
   • Prestressed Concrete Bridges
   • Constructability and Structural Control
   • Fire Protection
     

Textbook

Nilson, A. H. Design of Concrete Structures. 13th edition. McGraw Hill, 2004.

McCormac, J.C., Nelson, J.K. Jr., Structural Steel Design. 3rd edition. Prentice Hall, N.J., 2003.

References

• Galambos, T.V., Lin, F.J., Johnston, B.G., Basic Steel Design with LRFD, Prentice Hall, 1996
• Segui, W. T., LRFD Steel Design, 2nd Ed., PWS Publishing, Boston.
• Salmon, C.G. and Johnson, J.E., Steel Structures: Design and Behavior, 3rd Edition, Harper & Row, Publishers, New York, 1990.
• MacGregor, J. G., Reinforced Concrete: Mechanics and Design, 3rd Edition, Prentice Hall, New Jersey, 1997.
• Nawy, E. G., Reinforced Concrete: A Fundamental Approach, 5th Edition, Prentice Hall, New Jersey.
• Wang C-K. and Salmon, C. G., Reinforced Concrete Design, 6th Edition, Addison Wesley, New York.
• Nawy, E. G. Prestressed Concrete: A Fundamental Approach, Prentice Hall, NJ, (2003).
• PCI, PCI Design Handbook: Precast and Prestressed Concrete, Precast/Prestressed Concrete Institute, IL, 1992.
• Smith, J. C., Structural Analysis, Harpor and Row, Publishers, New York.
• W. McGuire, R. H. Gallagher and R. D. Ziemian. " Matrix Structural Analysis", 2nd Edition, John Wiley and Sons, 2000.
• ACI, Building Code Requirements for Structural Concrete (ACI 318-99) and Commentary (ACI 318R-99), American Concrete Institute, 1999.
• AISC, Load and Resistance Factor Design - Manual for Steel Construction, American Institute of Steel Construction.
• AISC, Load and Resistance Factor Design - Specification for Structural Steel Buildings, American Institute of Steel Construction.
• ICC, International Building Code, International Code Council, Inc. (2000).
• ASCE, Minimum Design Loads for Buildings and Other Structures, ASCE 7-02, American Society of Civil Engineers, Virginia, 2002.
• SAP2000 Analysis Reference and Tutorials, Computers and Structures.

Acknowledgments