Advanced Reinforced Concrete Design

Advanced Reinforced Concrete Design

NPTEL-NOC IITM via YouTube Direct link

Introduction-Overview of RCC - Part 1

1 of 79
Next

1 of 79

Introduction-Overview of RCC - Part 1

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Advanced Reinforced Concrete Design

Automatically move to the next video in the Classroom when playback concludes
  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

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Sign up for free
Someone learning on their laptop while sitting on the floor.