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Design and drawing of RC Structures CV61

Design and drawing of RC Structures CV61. Dr. G.S.Suresh Civil Engineering Department The National Institute of Engineering Mysore-570 008 Mob: 9342188467. Email: gss_nie@yahoo.com. WATER TANKS . Learning out Come. DESIGN OF RECTANGULAR WATER TANK RESTING ON GROUND WITH RIGID BASE

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Design and drawing of RC Structures CV61

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  1. Design and drawing of RC StructuresCV61 Dr. G.S.Suresh Civil Engineering Department The National Institute of Engineering Mysore-570 008 Mob: 9342188467 Email: gss_nie@yahoo.com

  2. WATER TANKS

  3. Learning out Come • DESIGN OF RECTANGULAR WATER TANK RESTING ON GROUND WITH RIGID BASE • REVISION

  4. RECTANGULAR WATER TANKS RESTING ON GROUND

  5. Introduction

  6. Introduction • Design a rectangular water tank 5m x 4m with depth of storage 3m, resting on ground and whose walls are rigidly joined at vertical and horizontal edges. Assume M20 concrete and Fe415 grade steel. Sketch the details of reinforcement in the tank

  7. Step1: Analysis for moment and tensile force E A C Free a=H=3m F Fixed b=4m B D L=5m

  8. Step1: Analysis for moment and tensile force i) Long wall:

  9. Step2: Design Constants

  10. Step3: Design for Vertical moment

  11. Step3: Design for Vertical moment

  12. Step4: Design for Horizontal moment • Horizontal moments at the corner in long and short wall produce unbalanced moment at the joint. This unbalanced moment has to be distributed to get balanced moment using moment distribution method.

  13. Step4: Design for Horizontal moment

  14. Step4: Design for Horizontal moment

  15. Step4: Design for Horizontal moment

  16. Step4: Design for Horizontal moment

  17. Step5: Base Slab • The slab is resting on firm ground. Hence nominal thickness and reinforcement is provided. The thickness of slab is assumed to be 200 mm and 0.24% reinforcement is provided in the form of #8 @ 200 c/c. at top and bottom • A haunch of 150 x 150 x 150 mm size is provided at all corners

  18. Detailing

  19. Detailing

  20. REVISION

  21. Dr.G.S.Suresh 1. LAYOUT DRAWING

  22. Dr.G.S.Suresh Introduction • Drawing is the language of engineers • Structural drawings guide builders in the construction • The guidelines given in IS 962 and SP 34 • Drawings are prepared in different sizes • In large projects, the structural drawings are of same size

  23. Introduction (Contd.) PAPER SIZE Dr.G.S.Suresh

  24. Dr.G.S.Suresh • Layout of Structural Drawing

  25. Dr.G.S.Suresh • Scale: Plan:- 1:100, 1:50 Elevation:- 1:5, 1:30 Sections:- 1:50, 1:30, 1:25, 1:20,1:15,1:10

  26. Dr.G.S.Suresh Structural Lay-Out Drawing • Positioning and orientation of columns • Positioning of beams • Spanning of slabs • Layout of stairs • Selecting proper type of footing

  27. Dr.G.S.Suresh Structural Lay-Out Drawing • Two axes marked one side with alphabets and the other with numbers. • Columns are marked at the intersection of grids • Beams are marked using two parallel lines • Slabs are indicated either as one way or two way

  28. Dr.G.S.Suresh Structural Lay-Out Drawing: Column & Footing A B C D 1 2 3 4

  29. Dr.G.S.Suresh Structural Lay-Out Drawing

  30. Dr.G.S.Suresh Structural Lay-Out Drawing A B C D 1 2 3 4

  31. Dr.G.S.Suresh Structural Lay-Out Drawing

  32. DETAILING OF BEAMS

  33. Dr.G.S.Suresh Introduction • Carries Transverse External Loads That Cause Bending Moment, Shear Forces And In Some Cases Torsion • Concrete is strong in compression and very weak in tension. • Steel reinforcement is used to take up tensile stresses in reinforced concrete beams. • Mild steel bars or Deformed or High yield strength deformed bars (HYSD) • HYSD bars have ribs on the surface and this increases the bond strength at least by 40%

  34. Specification for the reinforcement in beams is given in clause 8.1 to 8.6 of SP34

  35. SIMPLY SUPPORTED RECTANGULAR BEAMS

  36. PROBLEM No. 1 contd.

  37. CONTINUOUS RECTANGULAR BEAMS

  38. CANTILEVER RECTANGULAR BEAMS

  39. FLANGED BEAMS

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