Analysis and design of a multi storey reinforced concrete
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1Analysis and Design of a Multi-storey Reinforced Concrete
Building
Srm University College of Engineering
Civil Engineering DepartmentGraduation Project 1
www.thetechface.com
Fourth Semester 2010/2011
Prepared by:-Vivek mishra 8081926916
Adviser:-Junior engineer Nm mishra
Executive Engineering Nk chaudhary
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Outline
Objectives Summary General Approach Building Types Concrete Structural Elements
Slabs Flat Slab Design of Flat Slab
Columns Rectangular Columns Design of Rectangular Columns
Shear walls Design of Shear Walls
Foundations Pile Group Design of Pile Group
Enviromental Impact Conclusion
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Objectives
The Objectives of the Project are:-
Carrying out a complete analysis and design of the main structural elements of a multi-storey building including slabs, columns, shear walls and foundations
Getting familiar with structural softwares ( AutoCAD)
Getting real life experience with engineering practices
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Summary
Our graduation project is a residential building in Gorakhpur Railway division.
Place:- BastiThis building consists of 12 repeated floors.
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General Approach
Obtaining an architectural design of a regular residential multi-storey building.
Establishing the structural system for the ground, and repeated floors of the building.
The design of column, wind resisting system, and type of foundations will be determined taking into consideration the architectural drawings.
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Types of building
Buildings are be divided into: Apartment building
Apartment buildings are multi-story buildings where three or more residences are contained within one structure.
Office building The primary purpose of an office building is to provide a workplace and
working environment for administrative workers.
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Residential buildings
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Office buildings
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Concrete Mixtures
Concrete is a durable material which is ideal for many jobs.The concrete mix should be workable.It is important that the desired qualities of the hardened concrete
are met.Economy is also an important factor.
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Structural Elements
Any reinforced concrete structure consists of : Slabs Columns Shear walls Foundations
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Flat Slab Structural System
Flat slab is a concrete slab which is reinforced in two directions
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Types of Flat slab
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Defining properties
Slab thickness = 23 cmConcrete compressive strength = 30 MPaModules of elasticity of concrete = 200 GPaYielding strength of steel = 420 MPaCombination of loads (1.4Dead Load + 1.6 Live Load)
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Flat Slab Analysis and Design
Analyzing of flat slab mainly is done to find
1. Shear forces.
2. Bending moment.
3. Deflected shape.
4. Reactions at supports.
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Flat Slab Reinforcement
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Columns
It is a vertical structural member supporting axial compressive loads, with or with-out moments.
Support vertical loads from the floors and roof and transmit these loads to the foundation.
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Types of column
Spiral columnSpiral column Rectangular Rectangular columncolumn
• Tied ColumnsOver 95% of all columns in building in non-seismic regions are tied columns• Spiral ColumnsSpiral columns are generally circular. It makes the column more ductile.
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Steel Reinforcement in Columns
The limiting steel ratio ranges between 1 % to 8 %.
The concrete strength is between 25 MPa to 45 Mpa.
Reinforcing steel strength is between 400 MPa to 500 Mpa.
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Design procedure
1. Calculate factored axial load Pu
2. Select reinforcement ratio
3. Concrete strength = 30 MPa, steel yield strength = 420 MPa
4. Calculate gross area
5. Calculate area of column reinforcement, As, and select rebar number and size.
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Columns to be designed
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Guidelines for Column Reinforcement
Long Reinforcement Min. bar diameter Ø12 Min. concrete covers 40 mm Min. 4 bars in case of tied rectangular or circular Maximum distance between bars = 250 mm
Short Reinforcement ( Stirrups) Least of:
(16)×diameter of long bars least dimension of column (48)×diameter of ties
dc
S
Asp
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Reinforcement of Columns
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Shear walls
A shear wall is a wall that resists lateral wind loads which acts parallel to the plane of the wall.
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Shear walls
Wind results in a pressure on the surface of the buildingPressure increases with height
Positive Pressure, acts towards the surface of the building Negative Pressure, acts away from the surface of the building
(suction)
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Design of the wind force
North south direction
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Shear wall axial reactions
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Shear Wall Reinforcement
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Foundations
Foundations are structural components used to support columns and transfer loads to the underlying Soil.
Foundations
Isolated Combined Strap wall Raft
Shallow
footing footing footing footing footing
Caissons Piles
Deep
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Pile foundation
Our building is rested on a weak soil formation which can’t resist the loads coming from our proposed building, so we have to choose pile foundation.
Pile cap
PilesWeak soil
Bearing stratum
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Pile foundation
Piles are structural members that are made of steel, concrete or timber.
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Function of piles
As with other types of foundation, the purpose of a pile foundation is: To transmit a foundation load to a solid ground To resist vertical, lateral and uplift load
Piles can be Timber Concrete Steel Composite
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Concrete piles
General facts Usual length: 10m-20m Usual load: 300kN-3000kN
Advantages Corrosion resistance Can be easily combined with a concrete superstructure
Disadvantages Difficult to achieve proper cutoff Difficult to transport
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Pile foundation
Piles can be divided in to two major categories:1. End Bearing Piles
If the soil-boring records presence
of bedrock at the site within a reasonable depth,
piles can be extended to the
rock surface
2. Friction Piles
When no layer of rock is present depth at a site, point bearing piles become very long and uneconomical. In this type of subsoil, piles are driven through the softer material to specified depths.
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Pile Cap Reinforcement
Pile caps carrying very heavy point loads tend to produce high tensile stresses at the pile cap.
Reinforcement is thus designed to provide: Resistance to tensile bending forces in the bottom of the cap Resistance to vertical shear
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Design of the pile cap
bearing capacity of one pile:
Rs = α Cu As .L⋅ ⋅ Length of pile penetration L = 18
meters Adhesion factor of soil (clay) α = 0.8 Untrained shear strength Cu = 50 Diameter = 0.9 m For piles with diameter 0.9 m
Rs = 2035.75 KN
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Columns layout & Reactions ( Vertical Load )
Column Reaction Total Reaction
kN kN
1 129.63 1555.56
2 246.85 2962.2
8 382.66 4591.92
10 393.38 4720.56
21 458.35 5500.2
23 400.85 4810.2
24 627.74 7532.88
25 384.14 4609.68
30 158.3 1899.6
32 355.26 4263.12
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Shear walls layout & reactions
wall M (KN.m) N (KN)
W1 14072.12 12285.6
W2 366.048 3596.76
W3 366.048 3026.88
W4 5719.5 3605.04
W5 30.65295 4128
W6 301.6143 1899.6
W10 10141.2 32.80882
W11 2402.52 32.80882
W13 20978.4 6700.246
W14 3297.6 6700.246
W15 2040 262.4706
W16 5470.2 262.4706
W17 7262.76 7903.641
W18 8571.48 7086.706
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Environmental impact
Although the cement production is environmentally challenging, the final product of a reinforced concrete building is environmentally friendly.
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Conclusion
We have applied our gained knowledge during our graduation project
We are able to use structural software ( Auto Cad )We have practiced real life engineering practicesAt this point, we would like to thank all instructors, engineers,
and Al Ain Consultant Office for their grateful effort.
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