Open Access
MATEC Web of Conferences
Volume 58, 2016
The 3rd Bali International Seminar on Science & Technology (BISSTECH 2015)
Article Number 04005
Number of page(s) 8
Section Others
Published online 23 May 2016
  1. American Concrete Institut(ACI 318M-08)., 2008 Building Code Requirements for Structural Concrete and Commentary. First Printing June 2008, 335 pp
  2. Blackeley Roger W. G, Park Robert,. 1971 Seismic Resistance of Prestressed Concrete Beam-Column Assemblies. ACI Journal. 217 pp
  3. Barbara Chang, et al., 2014. Seismic Performance of Beam-Column Subassemblies with Hight Strength Steel Renforcement. ACI Struktural Journal, 1330–1332 pp.
  4. Dharma Astawa Made., 2006. Concrete Structure I, Teaching Modules, Grant Competition A1, Civil Engineering Department UPN “Veteran” East Java, Surabaya, ISBN : 978-979-1005-21-0.
  5. Dharma Astawa Made., 2007. Earthquake Engineering, Teaching Modules, Civil Engineering Departement UPN “Veteran” East Java, Surabaya, ISBN:98-979-1005-20-3.
  6. El-Sheikh Magdy T, et al., 1999. Seismic Behavior and Design of Unbonded Post-Tensioned Precast Concrete Frame. PCI Journal 512 pp.
  7. Hawkins Neil M & Ghosh S. K., 2000. Proposed Revision to 1997 NEHRP Recommended Provisions for Seismic Regulations for Precast Concrete Structures Part 2 Seismic Force Resisting Systems. PCI Journal, 35–42 pp.
  8. I Gusti Putu Raka., Tavio., Made Dharma Astawa., 2014. State-of-the-Art Report on Partially-Prestressed Concrete Earthquake-Resistant Building Structures for Highly-Seismic Region. Elsevier Prosedia Engineering 00 (2014), 3–11 pp.
  9. Liang., Parra., 2004. Seismic Behavior of Reinforced Concrete Column-Steel Beam Subassemblies and Frame Systems. Journal of Structural Engineering @ ASCE, February 2004, 311–314 pp.
  10. Lin T. Y, Burns Ned. H, Indrawan Daniel, 1996 “Desain Struktur Beton Prategang Jilid 1”, Erlangga Jakarta.
  11. Lin T. Y, Burn Ned. H, Mediana., 2000. Desain Struktur Beton Prategang Jilid 2. Erlangga Jakarta.
  12. Made D Astawa., Tavio., I G P Raka., 2013. Ductile Structure Framework of Earthquake Resistant of Highrise Building on Exterior Beam-Column Joint with the Partial Prestressed Concrete Beam-Column Reinforced Concrete. Elsevier Prosedia Engineering 54 (2013), 419–427 pp.
  13. Nakano K, Tanabe K, Machida S, & wada S., 2001. Damage Controlled Seismic Design by Precast-Prestressed Concrete Structure with Mild-Press-Joint, Part 1, Basic Consept of Design, AIJ Summeries of Technical Papers of Annual Meeting, Japan, 1–5 pp.
  14. Naaman Antoine. E., 1982. Prestressed Concrete Analysis and Design. McGrow-Hill Book Company, New York, San Francisco, Auckland, Bogota, Hamburg, Johannesburg, London, Madrid, atc.
  15. Naaman Antoine E, Siriaksorn A., 1978. Analysis and Design of Partially Prestressed to Statisfy Serviceability Criteria. A Study Report by a Research Fellowship Award from tht Prestressed Concrete Institute and by the University of Illionis, Chicago, 12–17 pp.
  16. Naaman Antoine E., 1985. Partially Prestressed Concrete (Review and Recommendation). special report, PCI. Journal, 112–116 pp.
  17. Neil M. Hawkins., 1978. State-of-the-Art Report on Seismic Resistance of Prestressed and Precast Concrete Structures. PCI Journal/January-February 1978, 42–53 pp.
  18. Paulay T, Priestley M. J. N., 1992. Seismic Design of Reinforced Concrete and Masonry Buildings. John Wiley & Sons, New York, Chichester, Brisbane, Toronto, Singapore. [CrossRef]
  19. Raka I Gusti Putu., 1987. Speech ITS Anniversary Scientific in order to XXVII. ITS, November 1987.
  20. Raka I Gusti Putu., 1993. Ductility Sectional Round Hollow Prestressed Piles Compaction Centrifugal results. Research Report, Civil Engineering Departement, ITS Surabaya., 3–8 pp
  21. Salah Khalfallah., Dahbia Guerdouh., 2014. Tension stiffening approach in concrete of tensioned members. International Journal of Advanced Structural Engineering 2014, 6:2, 2–6 pp. [CrossRef]
  22. Said M. Allam et al., 2013. Evaluation of tension stiffening effect on the crack width calculation of flexural RC members. Alexandria EngineeringJournal, January 2013, 164–172 pp.
  23. Sergio M. Alcocer et al., 2013. Guide for Testing Reinforced Concrete Structural Elements under Slowly Applied Simulated Seismic Loads. Reported by ACI Committee 374.2R-13, 8–14 pp.
  24. Shiohara Hitoshi., 2012. Reinforced Concrete Beam-Column Joints : an Overlooked Failure Mechanism and its Influence on the Future Seismic Design. Symposium on Earthquake and Resistance Building in Jakarta on Earthquake, Jakarta 17 Desember 2012, 5–7 pp.
  25. SNI 03-2847., 2013. Procedure for Calculation of Concrete Structures for Buildings, Concrete Laboratory ITS Surabaya.
  26. SNI 03-1726-2012, Structure Earthquake Resistant Buildings. Badan Standardisasi Nasional (BSN), Jakarta.
  27. S.V. Chaudhari., K.A. Mukane., M.A. Chakrabarti., 2014. Comparative study on Exterior RCC Beam Column Joint Subjected to Monotonic Loading. International Journal of Computer Applications (0975 – 8887) Volume 102– No.3, September 2014, 35–48 pp. [CrossRef]
  28. Tavio., Benny Kusuma., Prio Suprobo., 2012. Experimental Behavior of Concrete Columns Confined by Welded Wire Fabric as Transverse Reinforcement under Axial Compression. ACI Structural Journal, May-June 2012, 2–4 pp
  29. Thompson Kevin J., Park Robert., 1980. Ductility of Prestressed and Partially Prestressed Concrete Beam Section. PCI Journal, March-April 1980, 219–223 pp.
  30. UBC., 1997. Uniform Building Code. Chapter 16, DIV. IV-1997.