In a beam the local bond stress Sb, is equal to

RCC Structures Design
In a beam the local bond stress Sb, is equal to

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Shear force/(Leaver arm × Total perimeter of reinforcement)

Leaver arm/(Shear force × Total perimeter of reinforcement)

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Shear force/(Leaver arm × Total perimeter of reinforcement)

Leaver arm/(Shear force × Total perimeter of reinforcement)

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RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

mc/t = n/(d - n)

mc/t = (d - n)/t

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

mc/t = n/(d - n)

mc/t = (d - n)/t

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

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RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

17 cm²

15 cm²

16 cm²

14 cm²

17 cm²

15 cm²

16 cm²

14 cm²

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RCC Structures Design
If R and T are rise and tread of a stair spanning horizontally, the steps are supported by a wall on one side and by a stringer beam on the other side, the steps are designed as beams of width

R - T

T - R

R + T

√(R² + T²)

R - T

T - R

R + T

√(R² + T²)

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RCC Structures Design
The maximum area of tension reinforcement in beams shall not exceed

0.15 %

1

4 %

6

0.15 %

1

4 %

6

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RCC Structures Design
Distribution reinforcement in a simply supported slab, is provided to distribute

Temperature stress

All listed here

Shrinkage stress

Load

Temperature stress

All listed here

Shrinkage stress

Load

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RCC Structures Design

RCC Structures Design In a beam the local bond stress Sb, is equal to

RCC Structures Design In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

RCC Structures Design If R and T are rise and tread of a stair spanning horizontally, the steps are supported by a wall on one side and by a stringer beam on the other side, the steps are designed as beams of width

RCC Structures Design The maximum area of tension reinforcement in beams shall not exceed

RCC Structures Design Distribution reinforcement in a simply supported slab, is provided to distribute

RCC Structures Design
In a beam the local bond stress Sb, is equal to

RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

RCC Structures Design
If R and T are rise and tread of a stair spanning horizontally, the steps are supported by a wall on one side and by a stringer beam on the other side, the steps are designed as beams of width

RCC Structures Design
The maximum area of tension reinforcement in beams shall not exceed

RCC Structures Design
Distribution reinforcement in a simply supported slab, is provided to distribute