Concrete Structures

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This ultimate unique free application is for all students of civil engineering 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
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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