Course : Reinforced Concrete Structure II

  • 4 September 2017, 15.09
  • Oleh:
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Course code/credits and contact hours : TKS3208/2.0
Semester : VI
Instructor’s or course coordinator’s name : Prof. Ir. HRC. Priyosulistyo, M.Sc., Ph.D.
Bibliography :
  1. ACI, Building Code Requirements for Structural Concrete (ACI 318M-11), An ACI Standard and Commentary, Farmington Hills, MI, 2011
  2. SNI 2847:2013, Persyaratan Beton Struktural untuk Bangunan Gedung
  3. SNI 1726:2012, Tata Cara Perencanaan Ketahanan Gempa untuk Struktur Bangunan Gedung dan Non Gedung
  4. MacGregor J.G., Wight J.K., 2008, Reinforced Concrete Mechanic and Design, 4th Ed. In SI Unit, Pearson Prentice Hall
  5. Nilson, A.H., Darwin, D., Dolan, C.D., 2005, Design of Concrete Structures, 13th Ed., McGraw Hill
  6. Varghese, P.C., 2003, Advanced Reinforced Concrete Design, Prentice Hall of India Private Limited, New Delhi
  7. Park, R., and Paulay, T., 1975, Reinforced Concrete Structures, Jmateohn Wiley and Sons, NY.
Specific course information
Brief description  : This course contains :

  1. Definition of structural ductility and the application philosophy (SRPMB, SRPMM, SRPMK, and Dual Frame System); Calculation of negative moment capacity and positive at beam edges with relation to structural ductility; force mechanics and force mechanism and connection design (beam-column).
  2. Moment redistribution in continuous span, symmetric and asymmetric design in semi-plastic way.
  3. Biaxial column reinforcement for rectangular and circle.
  4. Shear wall analysis of rectangulat and I section.
  5. Reinforcement bar of couple beam reinforcement, with simplified assumption.
Prerequisite Courses : 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 be able to understand an additional knowledge for civil engineering graduates in special reinforced concrete detail planning.
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. Basic principles of column design
  2. Factors that affect design of the column
  3. Inner forces equilibrium equation in the 4-rectangular and circle cross-section
  4. The design of the column with approach method
  5. Visual model of column reinforcement assembly, column-beam connection
  6. Shear reinforcement and reinforcement bars on column
  7. Primary reinforcement connection
  8. The ratio between width of the reinforcement and column cross section area
  9. Basic plate
  10. Design of moment on plate method of moment coefficient and direct method
  11. Direct foundation/voet plaat
  12. Continuous footing and joint foundations