General Guidelines to be Followed In Preparing BBS:
Important Point
- The bars should be grouped together for each structural unit, e.g., beam, etc.
- In a building structure, the bars should be listed floor by floor
- For cutting and bending purposes, schedules should be provided as separate A4 sheets and not as part of the detailed reinforcement drawings.
- The form of bar and fabric schedule and the shapes of the bar used should be in accordance with BS 8666.
- It is preferable that bars should be listed in the schedule in numerical order.
- It is essential that the bar mark reference on the label attached to a bundle of bars refers uniquely to a particular group or set of bars of defined length, size, shape, and type used on the job.
- This is imperative as a bar mark reference can then point to a class of bar characteristics. Also, this helps steel fixers and laborers keep track of the type and number of bars needed to complete a certain work.
Also, read: House Construction Cost Calculator Excel Sheet
Bar Bending Schedule Required Ment Data
Estimation of steel quantity is an essential skill of any civil engineer. Every civil engineer must know the method of calculation of steel Calculation quantity from drawing.
Data requires for estimation of steel quantity:
1. Plan, Elevation & Section
2. Structural Detail (Slab & Beam)
3. All Dimensions Must be Clear and Co-Related.
Also, read :How to Find House Construction Cost
How to Prepare a Slab BBS?
We calculated her two parts of caution of BBS as below
- Slab Beam.
- Slab.
Slab Beam Bar Bending Schedule
Slab Beam Location
Here many beam shows. So we calculate TB1 Beam.
TB1 Beam.
Numbers of Bars for Stirrups
Suppose the spacing of stirrups is 200 c/c and the length along which they are placed is 14100 mm, we can find the number of bars by the formula below
[ (14.100-200) / 200)] + 1 = 70.5 NosTotal Numer of Stirrups = 71 Nos
Stirrups Cutting Length
Cutting length beam stirrup
90 degree hook:
Length of stirrup = 2 (A + B) + 20 x diameter
135 degree hook:
Length of stirrup = 2 (A + B) + 24 x diameter
Length of stirrup = 2 ( (Length -2 Cover) + (Breadth-2 Cover) + 24 x diameter
diameter of Stirrups.
Length of stirrup = 2 (0.150 + 0.550) + 24 x 8
Length of stirrup = 1.592 m
Total Weight of Stirrups
Total Weight Stirrups = (No of ring x Cutting Length ) x (Weight diameter of bars)
Total Weight Stirrups = ( 71 x 1.592) x (0.395) = 44.648 kg
We must remember than steel is ductile in nature and is subject to elongation. Hence, the length of a bar is increased when bends or hooks are introduced. Hence, certain deductions are needed to offset this increase in length.
Also, read: Building Estimation Step by Step In Excel Sheet
Cutting Length Bar:
Cutting Length = True Length of a bar – Deductions
For 45 degree
Cutting length = Total length – 1 x Diameter of bar x No. of bends
Cutting length = (Total Length) +( 2 x L length) + (Lap Length (45 x d) ) – (2 x Bend) – (Cover)
Bottom Bar
2 nos bar 16 mm diameter
Cutting length = (11.400+2.400+0.200) + ( 2x 0.550) + ( 45 x 16) – ( 2 x 0.016 ) -(2 x 0.025)
Cutting length = (14.100) + (1.100) + (0.720) – (0.032) – (0.050)
Cutting length = 15.838 m
Total weight of bottom bar = No of Bars x Cutting length x Weight of bars
Total weight of bottom bar = 2 x 15.838 x 1.580 = 50.048 kg
Top Bar
2 nos bar 20 mm diameter
Cutting length = (11.400+2.400+0.200) + ( 2x 0.550) + ( 45 x 20) – ( 2 x 0.020 ) -(2 x 0.025)
Cutting length = (14.100) + (1.100) + (0.900) – (0.040) – (0.050)
Cutting length = 16.010 m
Total weight of top bar = No of Bars x Cutting length x Weight of bars
Total weight of top bar = 2 x 16.010 x 2.469 = 79.057 kg
Total Weight of Beam = Total Weight Stirrups + Total weight of bottom bar + Total weight of top bar
Total Weight of Beam = 44.648 kg + 50.048 kg + 79.057 kg = 173.753 kg
Slab Bar Bending Schedule Excel Sheet
Cutting Length Slab Bar
Cutting Length of Bar = (Total length) + ( Bentup Bar Length (0.42 x d)) +Lap
Area ( -1 to 3)/(-A to +B)
For X Direction
8 mm Diameter 200 mm c/c
No of Bars = (7 /0.2) + 1 = 36.0 Nos. = 36 Nos
Cutting Bar = (0.100+2.400+4.300+1.000+2.800+1.000+0.100) +( 0.42 * (0.125-0.025-0.025)) + 0
Cutting Bar = (11.700) + (0.032) = 11.732 m
Total weight of X direction slab bar = No of Bars x Cutting length x Weight of bars
Total weight of X direction slab bar = 36 x 11.732 x 0.395 = 166.829 kg
For Y Direction
8 mm Diameter 200 mm c/c
No of Bars = (11.700/0.200) + 1 = 59.5 Nos. = 60 Nos
Cutting Bar = (0.100+1.800+3.200+1.800+0.100) +( 0.42 * (0.125-0.025-0.025)) + 0
Cutting Bar = (7.000) + (0.0315) = 7.032 m
Total weight of Y direction slab bar = No of Bars x Cutting length x Weight of bars
Total weight of Y direction slab bar = 60 x 7.032 x 0.395 = 166.658 kg
Extra Bars
10 mm Diameter 200 mm c/c
No of Bars = (11.700/0.200) + 1 = 59.5 Nos. = 60 Nos
TB2 area A/( – 1 to +3) = (0.500 + 0.200 + 0.900 ) = 1.600 m
Total weight of TB1 = No of Bars x Cutting length x Weight of Diameter bar
Total weight of TB1 = 60 x 1.600 x 0.616 = 59.136 kg
No of Bars = (7 /0.2) + 1 = 36.0 Nos. = 36 Nos
TB3 area 4 (-A to +B) = (0.700 + 0.200 + 1.250 ) = 2.150 m
Total weight of TB3 = 36 x 2.150 x 0.616 = 47.678 kg
No of Bars = (7 /0.2) + 1 = 36.0 Nos. = 36 Nos
TB5 area 1/2 (-A to +B) = (1.250 + 0.200 + 1.400 ) = 2.850 m
Total weight of TB5 = 36 x 2.850 x 0.616 = 63.202 kg
Total weight of Slab = Total weight of X direction slab bar + Total weight of Y direction slab bar + Total weight of TB1 + Total weight of TB3 + Total weight of TB5
Total weight of Slab = 166.829 kg + 166.658 kg + 59.136 kg + 47.678 kg + 63.202 kg = 503.03 kg
How to Calculate Slab Steel Quantity from Drawing Excel Sheet
How to Calculate Slab Steel Quantity from Drawing Excel Sheet Click Here
Bar Bending Schedule for Slab
S.NO. | Description | Shape Of Bar | Grid | No of Column | Nos. of Bar | Length | Dia. Of Bar | Dia Wise Length In Mtr. | Total Weight In KG | ||||||||
8 mm | 10 mm | 12 mm | 16 mm | 20 mm | 25 mm | Sub Total | Cumulative | ||||||||||
0.395 | 0.616 | 0.888 | 1.579 | 2.466 | 3.854 | ||||||||||||
A | Slab Beam | ||||||||||||||||
1 | TB1 ( 200 X 600 ) | ||||||||||||||||
-A / (-1 to +3) | |||||||||||||||||
+B / (-1 to +3) | |||||||||||||||||
Top Bar | 2 | 2 | 15.200 | 20 | – | – | – | – | 60.80 | – | |||||||
Bottom Bar | 2 | 2 | 15.200 | 16 | – | – | – | 60.80 | – | – | |||||||
– | – | – | – | – | – | ||||||||||||
Lap | |||||||||||||||||
Top Bar | 2 | 2 | 1 | 20 | – | – | – | – | 4 | – | |||||||
Bottom Bar | 2 | 2 | 0.8 | 16 | – | – | – | 3.20 | – | – | |||||||
Ring | – | – | – | – | – | – | |||||||||||
200 C/C ( -1 to 3) | 2 | 55 | 1.560 | 8 | 171.60 | – | – | – | – | – | |||||||
150 C/C ( 3 to+ 3) | 2 | 16 | 1.560 | 8 | 49.92 | – | – | – | – | – | |||||||
Total Length as per dia | 221.52 | – | – | 64.00 | 64.80 | – | |||||||||||
Dia in K.g/m | 0.395 | 0.616 | 0.888 | 1.579 | 2.466 | 3.854 | |||||||||||
Total weight as per dia | 87.5 | 0 | 0 | 101.056 | 159.797 | 0 | 348.353 | ||||||||||
Total Qty in K.g | 348.353 kg |
Also Read: Area of Steel Formula in Rcc
Steel Calculations
- Weight of bar in kg/meter should be calculated as (d2 ÷ 162) where‘d’ is the diameter of bar in mm.
- ‘L‘ for column main steel in footing should be considered as minimum 30cm/as specified.
- For bent up bar add 0.42d in a straight length of the bar where’d’ is the clear depth of beam/slab.
Steel Quantity Calculation
- (Calculation of bars no’s): first, calculate the number of bars required (main and distribution both). Formula = (total length – clear cover)/center to center spacing + 1 main bar, = (5000 – (25+25))/100 + 1, = 4950 divided by 100 + 1, = 51 bars., distribution bar = (2000 – (25+25))/125 + 1, = 1950 divided by 125 + 1, = 17 bars.
- (Cutting length) main bar: formula = (l) + (2 x ld) + (1 x 0.42d) – (2 x 1d), where l = clear span of the slab, ld = development length which is 40 d (where d is diameter of bar), 0.42d = inclined length (bend length), 1d = 45° bends (d is diameter of bar) first calculate the length of “d“. D = (thickness) – 2 (clear cover at top, bottom) – diameter of the bar, = 150 – 2(25) -12, d = 88 mm ans, by putting values: cutting length = 2000 + (2 x 40 x 12) + (1 x 0.42 x 88) – (2 x 1 x 12), cutting length = 2000 + 960 + 36.96 – 24, =2972.96 mm ~ 2973 mm or 2.973 m.
- (Cutting length) Distribution bar: formula = clear span + (2 x development length (ld)), = 5000 + (2 x 40 x 8), = 5640 mm or 5.64 m
- (Steel Quantity Calculation) Conclusion:
- Main bar nos = numbers 51, main bar length = length (51 x 2.973 m) = 151.623 m, main bar weight = weight (d^2/162) x length = 134.776 kg.
- Distribution bar nos = numbers 17, distribution bar length= length (17 x 5.64 m) = 95.88 m, distribution bar weight = weight (d^2/162) x length = 37.87 kg.
How to Calculate Steel Weight?
Weight of Steel = (l/1000) x (w/1000) x t x η
l = length in mm
w = width in mm
t = thickness in mm
η = Specific material density ( e.g.: steel = 7.85 kg / dm³)
Steel Quantity Calculation
(Cutting length) main bar: formula = (l) + (2 x ld) + (1 x 0.42d) – (2 x 1d), where l = clear span of the slab, ld = development length which is 40 d (where d is diameter of bar), 0.42d = inclined length (bend length), 1d = 45° bends (d is diameter of bar) first calculate the length of “d“.
Bar Bending Schedule Formulas
Example of Beam Reinflorcement Calculation:
- Length of B1 = clear distance between walls + 2 x width of walls – 2 x bar cover + 2 x bend length.
- Length of bar B2: A + B + C = 4000 + 2 x 230 – 2 x 40 + (1.414xH – H)
- B2 = 4000 + 2 x 230 – 2 x 40 + (1.414×334 – 334) = 4518.3 = 4520mm.
How to Calculate Steel Quantity for Slab?
The total steel quantity per slab must be equal to the total amount of main steel and stirrup steels. In simple terms, one can just multiply the length of the slab by its width and then divide the area by 12.5.
What Is Bar Bending Schedule?
Bar Bending Schedule (BBS) helps to determine the quantity of steel required in construction of your house. This helps to get the accurate estimation of steel. Once the calculation of cutting and bending is done it reduces the wastage of steel and it becomes economic.
How to Calculate Steel Quantity?
Steel quantity is calculated by multiplying the cross-section of steel with its total density which can be 7850 kg/m3. The total steel quantity per slab must be equal to the total amount of main steel and stirrup steels.
Slab Steel Calculation
The Thumb rule to calculate steel in slabs is 3.5 kg to 4 kg/sq. ft of built-up area. On the whole, approximately 3500 kg to 4000 kg of steel is required to build a 1000 square feet structure. This is one of the most basic important information that one must be aware of before building his/her own dream house.
Steel Quantity Calculation Formula
As per thumb rule steel quantity required in the formation of RCC beam should be 2% of total volume of concrete. To calculate the steel quantity in beam as 2% of volume of concrete = 0.02 x 7850 x 5.29 = 830 kg.
Steel Quantity Formula
In simple terms, one can just multiply the length of the slab by its width and then divide the area by 12.5. The above simple formula helps the builder to calculate the steel mesh that is required to make the slabs stronger and long-lasting.
Slab Reinforcement Calculation
Number of bars = (length ÷ spacing) + 1
Get the number of bars on the NORTH side. Say, 18 nos. Next, get the number of bars on the SOUTH side. As the clear length and spacing of bars are the same as the NORTH side.
Steel Quantity Calculation Excel Sheet
There are different ways to calculate steel quantity depending on the type of structure and the design requirements. However, a simple method to calculate the steel quantity for reinforced concrete structures is as follows:
- Determine the total length of steel bars required for the structure.
- Calculate the weight of steel required based on the length and the diameter of the bars.
- Multiply the weight of steel by the number of bars required.
Steel Calculator for Slab
To use this calculator, you’ll need to enter the following inputs:
- Length of the slab
- Width of the slab
- Depth of the slab
- Concrete grade (usually specified as a number followed by “MPa”, e.g. 25MPa)
- Spacing of the bars (center to center distance)
- Diameter of the bars
- Total number of bars in both directions (i.e. for top and bottom layers)
How to Calculate Steel Quantity Pdf?
Calculate Steel Quantity for Slab
- Compute number of steel bars. Main Steel Bars. No. of bars= (Slab length(L)/spacing)+1 Equation 1.
- Calculate cutting length:
- calculate the required number of bars for both directions. No. of bars = {(L or w – concrete cover for both sides) ÷ spacing} +1 Equation 8.
Number of Bars Formula
The formula to calculate the number of bars required for a structural element, such as a beam or column, is:
Number of Bars = (Area of Steel Required) / (Area of One Bar)
where:
- Area of Steel Required: The cross-sectional area of steel reinforcement required to meet the design specifications of the structural element, typically expressed in square millimeters (mm²) or square inches (in²).
- Area of One Bar: The cross-sectional area of a single bar of the specified diameter, typically expressed in square millimeters (mm²) or square inches (in²).
No of Bars Formula
Number of bars = (Total cross-sectional area of steel required) / (Cross-sectional area of one bar)
where:
- Total cross-sectional area of steel required: The total area of steel reinforcement required to meet the design specifications of the structural element, typically expressed in square millimeters (mm²) or square inches (in²).
- Cross-sectional area of one bar: The cross-sectional area of a single bar of the specified diameter, typically expressed in square millimeters (mm²) or square inches (in²).
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Originally posted 2023-05-10 14:55:09.
Vishal Sutariya says
How to download excel sheet
Krunal Rajput says
https://drive.google.com/uc?export=download&id=19YvLSY0vuAofrv1t4Ac7nAX0166Czr7k