RCC Structures Design

RCC Structures Design
The shear reinforcement in R.C.C. is provided to resist

Diagonal tension

Diagonal compression

Vertical shear

Horizontal shear

Diagonal tension

Diagonal compression

Vertical shear

Horizontal shear

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RCC Structures Design
Total pressure on the vertical face of a retaining wall of height ‘h’ per unit run exerted by the retained earth weighing ‘w’ per unit volume, is

wh² [(1 - sin φ)/3(1 + sin φ)]

wh² [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/2(1 + sin φ)]

wh [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/3(1 + sin φ)]

wh² [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/2(1 + sin φ)]

wh [(1 - sin φ)/(1 + sin φ)]

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RCC Structures Design
The live load to be considered for an inaccessible roof, is

150 kg/cm²

75 kg/m²

Nil

200 kg/m²

150 kg/cm²

75 kg/m²

Nil

200 kg/m²

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RCC Structures Design
The minimum clear cover for R.C.C. columns shall be

Greater of 40 mm or diameter

Smaller of 25 mm or diameter

Smaller of 40 mm or diameter

Greater of 25 mm or diameter

Greater of 40 mm or diameter

Smaller of 25 mm or diameter

Smaller of 40 mm or diameter

Greater of 25 mm or diameter

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RCC Structures Design
If longitudinally spanning stairs are casted along with their landings, the maximum bending moment per metre width, is taken as

\frac{w l^{2}}{12}

\frac{w l^{2}}{10}

\frac{w l^{2}}{4}

\frac{w l^{2}}{8}

$\frac{w l^{2}}{12}$

$\frac{w l^{2}}{10}$

$\frac{w l^{2}}{4}$

$\frac{w l^{2}}{8}$

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RCC Structures Design
The steel generally used in R.C.C. work, is

Mild steel

Stainless

High tension steel

High carbon steel

Mild steel

Stainless

High tension steel

High carbon steel

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