Design of Concrete Structures

Features

• Description
• This ultimate free unique application is for all students across the world. It covers 70 topics of Design of Concrete Structures II in detail. These 70 topics are divided in 5 units.
• Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.
• This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.
• Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.
• Some of topics Covered in this application are:
• 1. Introduction
• 2. EXPLANATION OF SOME DURABILITY CONCEPTS
• 3. GENERAL
• 4. BASIC FORMULATION OF DURABILITY DESIGN
• 5. DESIGN WITH PERFORMANCE PRINCIPLE WHEN R AND S ARE NORMALLY DISTRIBUTED
• 6. DURABILITY DESIGN WITH LOG-NORMAL SERVICE LIFE DISTRIBUTION
• 7. THE MEANING OF LIFETIME SAFETY FACTOR
• 8. LIFETIME SAFETY FACTORS AS DETERMINED BY STOCHASTIC METHODS
• 9. DETERMINATION OF LIFETIME SAFETY FACTORS FOR STRUCTURAL DURABILITY DESIGN
• 10. Determination of lifetime safety factors by the separated safety principle
• 11. FORMULATION OF LOAD-BEARING CAPACITY WITH TIME
• 12. Column
• 13. Beam
• 14. PROPOSED PROCEDURES FOR STRUCTURAL DURABILITY DESIGN
• 15. Durability design
• 16. Final design
• 17. TYPES OF DURABILITY MODELS
• 18. Durability models for some degradation processes
• 19. ABRASION OF CONCRETE BY ICE
• 20. CORROSION OF REINFORCEMENT
• 21. Initiation time of corrosion
• 22. Propagation period
• 23. DURABILITY DESIGN IN THIS DESIGN GUIDE
• 24. Introduction to various Design Philosophies
• 25. Introduction to various Design Philosophies
• 26. Design of Rectangular Singly and Doubly Reinforced Sections by Working Stress Method
• 27. Assumptions in Limit State Theory
• 28. Assumptions in Limit State Design Method
• 29. Design of Rectangular singly beam by limit state method
• 30. Numericals on Singly Reinforced beam by LSD
• 31. Design of Rectangular Doubly beam by Limit state method
• 32. Numericals on Doubly reinforced beam
• 33. Design of T and L beams
• 34. IS code specifications for designing
• 35. Four different cases for designing T and L beams
• 36. Numericals on T and L beams
• 37. Concrete making materials
• 38. Properties of concrete
• 39. Mix design
• 40. Testing of Concrete
• 41. Behaviour of RC beams in shear
• 42. Design of beams in shear
• 43. Minimum and Maximum shear reinforcements
• 44. Curtailment of tension reinforcements
• 45. Numericals on Shear reinforcement
• 46. Introduction to Development length
• 47. Anchoring reinforcing bars
• 48. Flexure Bond
• 49. Design for combined bending, shear and torsion
• 50. Requirement of Reinforcement in combined bending, shear and torsion
• 51. Numerical on combined effect of bending , shear and torsion
• 52. Introduction to columns
• 53. Reinforcement detailing in Columns
• 54. Assumptions in the design of columns
• 55. Minimum Eccentricity of columns
• 56. Design of Short columns under Axial Load with Uniaxial Bending
• 57. Design of short column under axial compression
• 58. Code Procedure for Design of Biaxially Loaded Columns
• 59. Design of Slender columns
• 60. Introduction to slabs
• 61. One way and two way slabs
• 62. Design shear strength and design considerations in slabs
• 63. Design of One way slabs
• 64. Numerical on one way slab
• 65. Design shear strength and design considerations in two way slabs
• 66. Design of Two way slabs
• 67. Detailing of Reinforcements for two way slabs
• 68. Numerical on two way slab
• 69. Serviceability limit state
• 70. Failure mode due to shear

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