Course : Precast & Prestressed Concrete Structures

  • 5 September 2017, 13.13
  • Oleh:
  • 0
Course code/credits and contact hours : TKS4110/2.0
Semester : VII
Instructor’s or course coordinator’s name : Dr.-Ing. Ir. Andreas Triwiyono
Bibliography :
  1. E.G.Nawy, 2003, Prestressed Concrete, A Fundamental Approach, 4th Ed., Prentice Hall, Eng.Cliffs NJ.
  2. Nilson, A.H. et al., 2010, Design of Concrete Structures, 14th, Mc. Graw-Hill, N.Y.
  3. A.E. Naaman, 2004, Prestressed Concrete Analysis and Design, Fundamentals, 2nd.Ed., Techno Press 3000, Michigan 48105.
  4.  Andri Budiadi, 2008,Desain Praktis Beton Prategang, Andi Offset, Yogyakarta
  5. BSN, 2013, SNI 2847:2013 – Persyaratan Beton Struktural untuk Bangunan Gedung, Jakarta.
  6. ACI, 2011,            ACI 318M-11 – Building Code Requirements for Structural Concrete, Farmington Hills.
  7. Elliot, K.S., 2002, Precast Concrete Structures, Butterworth Heinemann Publication.
  8. Elliot K.S. and Tovey, a.K., 1996, Precast Concrete Frame Building, Design Guide, British Cement Association, BCA’s Publisher
  9. PCI, Precast/Prestressed Concrete Institute, 1985, PCI Design Handbook, third edition, Chicago, Illinois.
  10. ACI T1.1-01, 1999, Acceptance Criteria for Moment Frames based on Structural Testing and Commentary
Specific course information
Brief description  : This course will discuss mainly about the design, analysis and applications of prestressed and precast concrete structures.
Prerequisite Courses :
  1. Mechanics of Materials (Semester IV)
  2. Reinforced Concrete Structure I (Semester V)
Required/elective : Elective
Studio work : N/A
Laboratory work : N/A
Specific goals of the course
Specific outcomes : Students are expected to:

  1. Understand and able to design simple beam structures of prestressed concrete
  2. Understand the construction steps of prestressed concrete simple beam.
  3. Understand the general system of precast concrete, the advantages and the disadvantages.
  4. Understand the related aspects of design and application of precast structures.
  5. Understand and able to design precast concrete structures
  6. Understand the construction methods of precast concrete.
Student outcomes : (a) An ability to apply knowledge of mathematics, science, and engineering in civil engineering fields

(c) An ability to design a system, component, or process in order to be able to face the real constraints in economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
Brief list of topics to be covered :
  1. Prestressed Concrete Structures: principals and basic concept of prestressed concrete structures, types of the structures, materials & equipment, structural analysis due to prestressed forces, characteristics of the cut section, Section tension and allowable tension, loss of prestressing force, bending and shear strength limit. Design of block ends (anchorage zone). Scope of discussion: simple beam.
  2. Precast Concrete Structures: application of precast concrete on civil engineering structures, advantages and disadvantages, certain aspects on precast structures design. Joint between each precast component. Structural analysis of buildings and bridges made out of precast concrete. Structural element design, such as slab concrete, beams, columns, and joints. Tests on precasted beam-column joints for building structures.