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- Concrete Structures II - CS-II
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**Veer Surendra Sai University Of Technology VSSUT -**- Civil Engineering
- 11 Topics
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Page-1

- Syllabus and References - ( 1 - 3 )
- Introduction to Earthquake Engineering - ( 4 - 21 )
- Behavior of Earthquake Resistant - ( 22 - 34 )
- Cyclic behavior of Concrete and Reinforcement - ( 35 - 37 )
- Significance of ductility - ( 38 - 40 )
- Ductility of Beam - ( 41 - 44 )
- Design for ductility - ( 45 - 48 )
- Ductile Detailing - ( 49 - 53 )
- Sample Problems - ( 54 - 60 )
- Computation of Earthquake - ( 61 - 66 )
- Seismic Analysis - ( 67 - 74 )

Topic:

Course Materials- Civil Engineering- Concrete Structures II Module 1 Lecture 1 In this lecture the course outline and the module and lecture wise breakup of the concrete structure II course are discussed. Also, the list of reference books, conference papers, reports and journals have been given. Course Outline of BCE 401 Concrete Structures (3-1-0) CR-04 Module I: Introduction to Earthquake Engineering, cyclic behaviour of concrete and reinforcement, significance of ductility, ductility of beam, design and detailing for ductility, simple problems based on above concept, computation of earthquake forces on building frame using seismic coefficient method as per IS 1893-2002. Module II: Combined footing, design of rectangular and trapezoidal footing, design of raft foundation Module III: Retaining walls, forces acting on retaining wall, stability requirement, design of cantilever and counter-fort retaining walls Module IV: Building portals, Analysis of portal frames, design of rectangular portal frames, design of water tanks, design requirements, design of tanks on the ground and under ground. Course Prerequisites: Concrete Structures I, Structural Analysis, Mechanics of Materials, Engineering Mechanics References 1. A.K. Chopra, Dynamics of structures theory and applications to earthquake engineering, Prentice Hall of India, 2008. 2. S.L. Kramer, Geotechnical Earthquake Engineering, Prentice Hall, Upper Saddle River, New Jersey, 1996. 3. P.C. Verghese, Advanced Concrete Structures Design, Prentice Hall of India, 2013. 4. A.K. Jain, Limit State Design of Reinforced Concrete Structures, Nem Chand Brothers, Roorkee, 2010. 5. C.V.R. Murthy, Rupen Goswami, A.R. Vijayanarayanan, Vipul V Mehta, Some Concepts in Earthquake Behaviour of Buildings, Gujarat State Disaster Management Authority, Govt. Of Gujrat, 2014. 6. J.N. Bandyopadhyay, “Design of concrete structures”, Prentice Hall of India, 2008. 7. N. Subramaniam, “Design of reinforced concrete structures”, Oxford University Press, 2014. 8. S.U. Pillai and D Menon, Reinforced Concrete Design, Tata McGrawHill Education Private Limited, 2010. 9. P. Dayaratnam, “Limit state design of reinforced concrete structures”, Oxford IBH, 2008. 10. M.L. Gambhir, “Design of reinforced concrete structures”, Prentice Hall of India, 2008. Under revision *, Funded by ETET Odisha 4

Course Materials- Civil Engineering- Concrete Structures II 11. B.C. Punmia, A.K. Jain and A.K. Jain, “Limit state design of reinforced concrete”, 2007, Laxmi Publishers. 12. B.C. Punmia, A.K. Jain and A.K. Jain, “Reinforced concrete structures”, Laxmi publishers, 2006. 13. G.A. Rombach, “Finite element design of concrete structures, practical problems and their solutions”, Thomas Telford, 2004. 14. M. Bill Wong, “Plastic analysis and design of steel structures”, Elsevier Publishers, 2009. 15. C. Fernandes, J. Melo, H. Rodrigues, A Costa, H Varum, A. Arede, “Cyclic behaviour analysis of RC elements with plain reinforcing bars”, 14 ECEE2010. 16. A.K. Sreerama, P.K. Ramancharla, “Earthquake behaviour of reinforced concrete framed buildings on hill slopes”, International Symposium on New Technologies for Urban Safety of Mega Cities in Asia (USMCA2013)”. 17. L. Davenne, F. Ragueneau, J. Mazars, A Ibrahimbegovic, “Efficient approaches to finite element analysis in earthquake engineering”, Computers and Structures, 81(2003), 1223-1239. 18. S.G. Maske, P.S. Pajgade, “Torsional behaviour of asymmetrical buildings”, International Journal of Modern Engineering Research (IJMER), 3(2013), pp. 11461149. 19. D. Menon and A.K. Sengupta, “Handbook on seismic retrofit of buildings”, Central Public Works Department and Indian Building Congress, 20. M. Tomazevic, “Some aspects of experimental testing of seismic behaviour of masonry walls and models of masonry buildings”, ISET Journal of Earthquake Technology, Paper No. 404, 37(4), 2000, pp. 101-117. 21. C. Boutin, S. Hans, E. Ibrahim, P. Roussillon, “In situ experiments and seismic analysis of existing buildings. Part II: Seismic integrity threshold”, Earthquake Engineering and Structural Dynamics, 34(12), 2005, pp. 1531-1546. 22. R.E. Klingner, “Masonry structural design”, McGrawhill Book Company, 2010. 23. L. Avila, G. Vascoucelos, P.B. Lourenco, “Experimental investigation on the seismic behaviour of new concrete block masonry buildings”, 15th International Brick and Block Masonry Conference, Brazil-2012. 24. W.D.L. Finn, “State-of-the-art of geotechnical earthquake engineering practice”, Soil Dynamics and Earthquake Engineering, 20(2000), 1-15. 25. S. Bhat, N.A.P. Shenoy, A.U. Rao, “Earthquake behaviour of buildings with and without shear walls”, Journal of Mechanical and Civil Engineering, 20-25, 2014. 26. Y. Bai, “Marine Structural Design”, Elsevier, 2003. 27. R. Shankar, M. Mukherjee, P.S. Chani, I. Gupta, “National programme for capacity building for architects in earthquake risk management”, Department of Architecture and Planning, IIT Roorkee, 2006, pp. 1-287. 28. K. Mitra, S. Ailawadi and D.C. Rai, “Initiatives in Educating Future architects in Earthquake Resistant Design Practices”, Seismological Research Letters, 84(5), 2013. 29. T.J. MacGinley, “Steel Structures, Practical Design Studies”, E & FN SPON, LONDON and New York, 1998. Under revision *, Funded by ETET Odisha 5

Course Materials- Civil Engineering- Concrete Structures II 30. J.C. McCormac, R.H. Brown, “Design of Reinforced Concrete”, John Wiley & Sons, 2009. 31. P. Fajfar, “Seismic behaviour of buildings”, International Conference on Seismic Design and Rehabilitation of Buildings, 2014. pp. 1-75. 32. R.K.L. Su, “Seismic behaviour of buildings with transfer structures with low-tomoderate seismicity regions”, EJSE Special issue, Earthquake Engineering in the low and moderate seismic regions of Southeast ASIA and AUSTRALIA, 2008, pp. 1-11. 33. M.K. Chryssanthopoulos, G.M.E. Manzocchi, A.S. Elnashai, “Probabilistic assessment of ductility for earthquake resistant design of steel members”, Journal of Constructional Steel Research, 52 (1999), 47-68. 34. D.K. Paul, “Lessons learnt from past earthquakes: Damage behaviour of MSRCF Buildings”, Course Lectures, Department of Earthquake Engineering, IIT Roorkee. 35. K.S. Jagadish, S. Raghunath and K.S. Nanjunda Rao, “Behaviour of masonry structures during the Bhuj earthquake of January 2001”, Proc. Indian Acad. Sci. (Earth Planet Sci.) 112, 3, 2003, 431-440. 36. A Ceccotti, P Faccio, M Nart, C Sandhaas and P Simeone, “Seismic behaviour of historic timber-frame buildings in the Italian Dolomites”, 15th International Symposium Istanbul and Rize (Turkey) September 18-23, 2006. 37. K. Bajaj, J.T. Chavda, B.M. Vyas, “Seismic behaviour of buildings on different types of soil”, Proceedings of Indian Geotechnical Conference, December 22-24, 2013, Roorkee. 38. T. Haukaas, ”Finite element reliability methods in earthquake engineering practice”, 13th World Conference on Earthquake Engineering, B.C. Canada, August 1-6, 2004. 39. F.D. Cicco, A. Prota, E Cosenza, ”Experimental investigation and analytical modelling of the cyclic behaviour of smooth steel bars”, The 14th World Conference on Earthquake Engineering, October 12-17, 2008, Beijing, China.pp.1-8. 40. G. Campione, L.L. Mendola and G. Zinggone, “Seismic behaviour of fibre reinforced concrete frames”, 12WCEE2000. 41. J.A.O. Barros, J.M.S. Cruz, R.M.Delgado and A.G. Costa, ”Reinforced concrete under cyclic loading”, 12WCEE2000, pp.1-8. 42. D. Dohare and S Maru, “Seismic behaviour of soft storey building: A Critical Review”, International Journal of Engineering Research and General Science, 2014, 2(6), pp.1-5. 43. S.Z. Korkmaz, M. Kamanli, H.H. Korkmaz, M.S. Donduren and M.T. Cogurcu, “ Experimental study on the behaviour of nonductile infilled RC frames strengthened with external mesh reinforcement and plaster composite”, Natural Hazards and Earth System Sciences, 10, 2305-2316, 2010. 44. C. Clifton, M. Bruneau and G. MacRae, R. Leon and A. Fussell “ Steel structures damage from the Christchurch Earthquake series of 2010 and 2011”, Bulletin of the New Zealand Society for Earthquake Engineering, 44(4), 2011. pp. 1-22. 45. G. Magenes, C. Modena, F.D Porto and P. Morandi, “Seismic behaviour and design of New masonry buildings: recent developments and consequent effects on design codes”, Eucode 8 Perspectives from the Italian Standpoint Workshop, 199-212, 2009. Under revision *, Funded by ETET Odisha 6

Course Materials- Civil Engineering- Concrete Structures II 46. S.K. Dubey and P.D. Sangamnerkar, “Seismic behaviour of asymmetric RC Buildings”, International Journal of Advanced Engineering Technology, 2011, 296301. 47. S.K. Duggal, “Earthquake resistant design of structures”, Oxford University Press, 2011 48. P. Agarwal and M. Shrikhande, “Earthquake resistant design of structures”, Prentice Hall of India, New Delhi, 2006. 49. B.C. Punmia, A.K. Jain and A.K. Jain “Building Construction”, Laxmi Publications, New Delhi, 2008. 50. P. Singh, “A Text Book of Engineering and General Geology”, S.K. Katarial & Sons, New Delhi, 2010. 51. P.K. Mukherjee, “A Text Book of Geology”, The World Press Private Limited, Calcutta, 2000. Detailed Course Plan: (Module Wise/Lecture Wise) Sl No 1 2 3 4 5 6 7 8 9 Module Lecture No 1 1 Introduction 2 3 4 5 6 7 8 9 10 10 Content Introduction to Earthquake Engineering Introduction to Earthquake Engineering cyclic behaviour of concrete and reinforcement significance of ductility ductility of beam design and detailing for ductility design and detailing for ductility simple problems based on above concept computation of earthquake forces on building frame using seismic coefficient method as per IS 1893-2002 computation of earthquake forces on building frame using seismic coefficient method as per IS 1893-2002 Introduction to Earthquake Engineering In this lecture the earthquake engineering has been briefly discussed. 1.1 Introduction The effects of earthquakes on people and their environment and methods of reducing those effects are included in the earthquake engineering. Earthquake engineering is a very broad field drawing on aspects of • Geology • seismology • geotechnical engineering • structural engineering • risk analysis • other technical fields Under revision *, Funded by ETET Odisha 7

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