Advanced Reinforced Concrete Design

Advanced Reinforced Concrete Design

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Two way slabs - Design Methods

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Two way slabs - Design Methods

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Advanced Reinforced Concrete Design

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  1. 1 Introduction-Overview of RCC - Part 1
  2. 2 Introduction-Overview of RCC - Part 2
  3. 3 Introduction to Design Concepts & Philosophies - Part 1
  4. 4 Introduction to Design Concepts & Philosophies - Part 2
  5. 5 Materials Rebar Properties
  6. 6 Materials Short Term Properties - Part 1
  7. 7 Materials Short Term Properties - Part 2
  8. 8 Materials Long Term Properties - Part 1
  9. 9 Materials Short Term Properties - Part 4
  10. 10 Materials Short Term Properties - Part 3
  11. 11 Materials Long Term Properties - Part 2
  12. 12 Durability-Overview
  13. 13 Durability-Effect of Chemical actions
  14. 14 Durability-Effect of Physical,mechanical and corrosion
  15. 15 Durability- Design approaches and code provisions
  16. 16 Axial Behaviour - Introduction
  17. 17 Axial Behaviour of Reinforced Concrete
  18. 18 Axial Behaviour- Effect of Compressive Strength
  19. 19 Flexure Behaviour - Effect of compressive strength on Moment curvature behaviour
  20. 20 Flexure Behaviour - Example-Moment curvature of singly reinforced section
  21. 21 Flexure Behaviour - Moment curvature analysis-procedure
  22. 22 Flexure Behaviour - Background to flexural theory
  23. 23 Flexure Behaviour - Effect of increasing reinforcement on Moment curvature behaviour
  24. 24 Flexure Behaviour - Effect of axial Compression on Moment curvature behaviour - Part 1
  25. 25 Flexure Behaviour - Effect of axial Compression on Moment curvature behaviour - Part 2
  26. 26 Flexure Behaviour - Effect of Compression steel on Moment curvature behaviour - Part 2
  27. 27 Flexure Behaviour - Effect of Compression steel on Moment curvature behaviour - Part 1
  28. 28 Flexure Behaviour - Background to flexural theory
  29. 29 Flexure Behaviour - Analysis and Design of Doubly Reinforced Sections using IS Code
  30. 30 Flexure Behaviour - Analysis and Design of Singly Reinforced Sections using IS Code Part - 2
  31. 31 Flexure Behaviour - Analysis and Design of Flanged Sections using IS Code Provisions
  32. 32 Flexure Behaviour - Examples in Flexure using IS Code Provisions
  33. 33 Flexure Behaviour - Analysis and Design of Singly Reinforced Sections using IS Code Part - 1
  34. 34 Flexure Behaviour - Analysis and Design of Doubly Reinforced Sections using IS Code
  35. 35 Flexure Behaviour - Shear Behaviour of RC elements - Part 3
  36. 36 Flexure Behaviour - Shear Behaviour of RC elements - Part 1
  37. 37 Flexure Behaviour - Shear Behaviour of RC elements - Part 2
  38. 38 Flexure Behaviour - Shear Design using IS 456 Provisions
  39. 39 Flexure Behaviour - Examples for Shear Design using IS 456 Provisions
  40. 40 Shear Behaviour - Torsional Behaviour of RC elements - Part 1
  41. 41 Shear Behaviour - Torsional Behaviour of RC elements - Part 2
  42. 42 Shear Behaviour - Examples for Shear Design using IS 456 Provisions
  43. 43 Shear Behaviour - Torsion Design of RC Beams using IS 456 Provisions
  44. 44 Shear Behaviour - Torsional Behaviour of RC elements - Part 3
  45. 45 Shear Behaviour of RC elements - Part 2
  46. 46 Shear Behaviour - Shear Design using IS 456 Provisions
  47. 47 Shear Behaviour of RC elements - Part 1
  48. 48 Shear Behaviour of RC elements - Part 3
  49. 49 Compression behaviour of RC Columns - Intro and Types - Part 1
  50. 50 Compression behaviour of RC Columns - Short vs Slender and Effective length Part - 2
  51. 51 Compression behaviour of RC Columns - Lateral Flexibility and Example - Part 3
  52. 52 Compression behaviour of RC Columns IS Code Provisions - Part 1
  53. 53 Compression behaviour of RC Columns Confinement and Tied Vs Spiral Confined Columns - Part 2
  54. 54 Compression behaviour of Slender Column Design: Theory - Part 1
  55. 55 Compression behaviour of Design of RC Columns for Biaxial Bending - Part 2
  56. 56 Compression behaviour of RC Columns - P-M Interaction : Theory
  57. 57 Compression behaviour of RC Columns- P-M Interaction : Example as per IS 456
  58. 58 Compression behaviour of Slender Column Design: Example as per IS 456 - Part 2
  59. 59 Compression behaviour of Design of RC Columns for Biaxial Bending - Part 1
  60. 60 Serviceability - Numerical Example for the calculation of Deflection of RC beam
  61. 61 Serviceability - Long term deflection and IS code Provisions
  62. 62 Serviceability - Introduction to Deflection of RC Beam Part - 1
  63. 63 Serviceability - Introduction to Deflection of RC Beam Part - 2
  64. 64 Crack width calculation - Theory - Part 1
  65. 65 Crack width Calculation - Example Part - 2
  66. 66 Serviceability - Design for Bond - Theory - Part 1
  67. 67 Serviceability - Design example for Bond and Splicing - Part 3
  68. 68 Serviceability - Design for Bond- Theory - Part 2
  69. 69 Two way slabs - Background
  70. 70 Two way slabs - Design Methods
  71. 71 Two way slabs - Direct Design Method - Part 1
  72. 72 Two way slabs - Direct Design Method - Part 2
  73. 73 Two way slabs - Equivalent Frame Method - Part 1
  74. 74 Two way slabs - Equivalent Frame Method (Example) - Part 2
  75. 75 Introduction - Advanced Reinforced Concrete Design
  76. 76 ETABS Tutorial Part 1 - Building Layout, Load Types & Code provisions
  77. 77 ETABS Tutorial Part 2 - Preliminary Design of Beam, Slab & Column Sections
  78. 78 ETABS Tutorial Part 3 - 3D Modeling & Load Assignment in ETABS
  79. 79 ETABS Tutorial Part 4 -  Analysis, Design & Result Interpretation in ETABS

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