The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure
The bracing between two columns of a steel tank will be designed to resist

horizontal, shear due to wind or earthquake + 2.5% of column loads

horizontal shear due to wind or earthquake only

column loads + 2.5% of horizontal shear due to wind or earthquake

column loads + full horizontal shear due to wind or earthquake

horizontal, shear due to wind or earthquake + 2.5% of column loads

horizontal shear due to wind or earthquake only

column loads + 2.5% of horizontal shear due to wind or earthquake

column loads + full horizontal shear due to wind or earthquake

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Design of Steel Structure
When the axis of load lies in the plane of rivet group, then the most heavily loaded rivet will be the one which (where, Fa is the load shared by each rivet due to axial load and Fm is the shearing load due to moment in any rivet.)

is at the maximum distance from CG of the rivet group

is at the minimum distance from CG of the rivet group

gives the maximum angle between the two forces Fa and Fm

gives the minimum angle between the two forces Fa and Fm

is at the maximum distance from CG of the rivet group

is at the minimum distance from CG of the rivet group

gives the maximum angle between the two forces Fa and Fm

gives the minimum angle between the two forces Fa and Fm

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Design of Steel Structure
The shape factor of an isosceles triangle for bending about the axis parallel to the base is:

2.33

2.01

1.0

2.34

2.33

2.01

1.0

2.34

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Design of Steel Structure
As per IS : 875, for the purposes of specifying basic wind velocity, the country has been divided into

4 zones

3 zones

6 zones

5 zones

4 zones

3 zones

6 zones

5 zones

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Design of Steel Structure
Bolts are most suitable to carry

bending

axial tension

shear

shear and bending

bending

axial tension

shear

shear and bending

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Design of Steel Structure
The minimum thickness of a steel plate, which is directly exposed to weather and is not accessible for cleaning and repainting, should be:

4.5 mm

10 mm

6 mm

8 mm

4.5 mm

10 mm

6 mm

8 mm

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Design of Steel Structure

Design of Steel Structure The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure When the axis of load lies in the plane of rivet group, then the most heavily loaded rivet will be the one which (where, Fa is the load shared by each rivet due to axial load and Fm is the shearing load due to moment in any rivet.)

Design of Steel Structure The shape factor of an isosceles triangle for bending about the axis parallel to the base is:

Design of Steel Structure As per IS : 875, for the purposes of specifying basic wind velocity, the country has been divided into

Design of Steel Structure Bolts are most suitable to carry

Design of Steel Structure The minimum thickness of a steel plate, which is directly exposed to weather and is not accessible for cleaning and repainting, should be:

Design of Steel Structure
The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure
When the axis of load lies in the plane of rivet group, then the most heavily loaded rivet will be the one which (where, Fa is the load shared by each rivet due to axial load and Fm is the shearing load due to moment in any rivet.)

Design of Steel Structure
The shape factor of an isosceles triangle for bending about the axis parallel to the base is:

Design of Steel Structure
As per IS : 875, for the purposes of specifying basic wind velocity, the country has been divided into

Design of Steel Structure
Bolts are most suitable to carry

Design of Steel Structure
The minimum thickness of a steel plate, which is directly exposed to weather and is not accessible for cleaning and repainting, should be: