Civil engineering : Civil engineering

Showing posts with label Civil engineering. Show all posts

Friday, 29 May 2020

How to calculate slab self weight

Example:

Slab size = 3m×5m

= 15 m square

Slab Thickness = 0.15m or 15cm or 150mm

Concrete density = 2400 kg/meter cube

Steel density = 7850 kg/meter cube

Volume of slab = 0.15×1×1 m square

= 0.15 m cube

= 0.15×2400 kg/m square

= 360 kg/m square

0.8% steel provided to

the total slab volume = (0.8/100)×0.15×7850

= 9.42 kg/m square

Slab self weight = 360+9.42 kg/m square

= 369.42 kg/m square

= 3.69 kN/m square

Live load = 2kN/m square

Dead load = 1 kN/m square

Slab self weight = 3.69+2+1 kN/m square

= 6.69 kN/m square

Total slab self weight = 6.69×15 kN

= 100.35 kN ans.

According to IS-456 2000

Safety of factor = 1.5×load

SOF = 1.5×100.35 kN

= 150.52 kN

Sunday, 24 May 2020

How to calculate beam self weight

Example:

Beam size = 300mm×450mm

Beam length = 4.5 m

:. Concrete density = 2400 kg/m cube

:. Steel density = 7850 kg/m cube

Volume of beam = 0.3×0.45×1 m cube

= 0.135 m cube

In kg = 0.135×2400 kg

= 324 kg/m

2% steel provided to the total beam volume

= (2/100)×0.135×7850 kg

= 21.19 kg/m

Self weight of beam = 324+21.19 kg/m

= 345 kg/m

Total beam self weight = 345×4.5 kg

= 1552.5 kg ans.

Note:according to the practical experience and also according to the IS-456 2000 code more information watch video link below.

https://youtu.be/eS7zFyZ3zeM

Friday, 22 May 2020

How to transfer load from slab to foundation through column

Example:

Built up area = 39.372 ft ×39.372 ft

Column size = 300mm×300mm

Beam size = 250mm×375mm

Column height = 3.1 m

Concrete density = 2400 kg/m cube

Steel density = 7850 kg/m cube

Slab thickness = 150mm

(i) column self weigh = 0.3×0.3×3.1 m cube

= 0.279 m cube

= 0.279×2400 kg

= 669.6 kg

1% steel provided to the total column volume = (1/100)×0.279×7850

= 21.9 kg

column self weight = 669.6+21.9 kg

= 692 kg

= 6.92 kN

= 7 kN

(ii) beam self weight = 0.25×0.375×1

= 0.09375 m cube

= 0.09375×2400 kg

= 225 kg

2% steel provided to the

total beam volume=(2/100)×0.09375×7850kg

= 14.71 kg/m

beam self weight = 225+14.71 kg

= 240 kg

= 2.4 kN/m

(iii) slab self weight = 0.15×1×1 m cube

= 0.15 m cube

= 0.15×2400 kg

= 360 kg

0.8% steel provided to the total slab volume

= (0.8/100)×0.15×7850 kg

= 9.42 kg

Slab self weight = 360+10 kg

= 370 kg

= 3.7 kN

Floor finish load = 1kN/m square

Live load = 2 kN/m square

Slab self weight=3.7 +1+2 kN

= 6.7 kN/m square

= 7kN/m square

Total load acting on the foundation in one column = 7+(2.4×8)+(7×16) kN

= 138.2 kN/column ans.

With safety factor = 138.2×1.5 kN

= 207.3 kN/column.

Note: for more information about this topic watch video link below.

https://youtu.be/4YQSUaonoiE

Thursday, 21 May 2020

How to calculate reinforcement details of beam

Example:

Column size = 230mm×300mm

Length of beam = 15 feet

Dia of main bar used in beam

= 12mm

Number of bars = 4 nos

Diameter of stirrup bar = 8mm

Spacing of stirrup = 150mm

Total length of main bars = 15×4 feet

= 60 feet

Total length of main

bar in meter = 60/3.28 m

= 18.29 m

= 19 m

Total weight of main

bar = ((D×D)/162)×length

= ((12×12)/162)×19 kg

= 16.88 kg

= 17 kg

Number of stirrup bar = 15 /3.28 m

= 4.57 m

= (4.57/0.15)+1

= 32 nos

Cutting length of stirrup = 2(a+b)+hook length-(no of bend×2d)

a= breadth-(2×spacing)-(2d)

= 230-(2×25)-(2×8)

= 164mm

b = depth-(2×spacing)-(2d)

= 300-(2×25)-(2×8) mm

= 234mm

L = 2(164+224)+(2×10×8)-(3×2×8) mm

= 908mm

= 0.908 m

Total stirrup length = 0.908×32 m

= 29.05 m

Total weight of stirrup steel bar

= ((d×d)/162)×length

= ((8×8)/162)×29.05 kg

= 11.47 kg

= 12kg

Total steel bar required for beam

= 17+12 kg

= 29 kg ans.

Note: for more details information watch video link below.

https://youtu.be/FOPy6HZUHmg