Maximum Torsion due to Service Load for Torsion Effects Calculator

✖Specified 28-Day Compressive Strength of Concrete is the maximum compressive load concrete can withstand after the concrete mix is formed.ⓘ Specified 28-Day Compressive Strength of Concrete [f'_c]			+10% -10%
✖Sum for Component Rectangles of Section of the product of square of the shorter side and the longer side of each rectangle.ⓘ Sum for Component Rectangles of Section [Σx²y]			+10% -10%

✖Maximum Torsion is caused when service loads exceed. Torsion is the twisting of an object due to an applied torque.ⓘ Maximum Torsion due to Service Load for Torsion Effects [T]

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Maximum Torsion due to Service Load for Torsion Effects Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section)
T = 0.55*(0.5*f'_c*Σx²y)
This formula uses 3 Variables

Variables Used

Maximum Torsion - (Measured in Pascal) - Maximum Torsion is caused when service loads exceed. Torsion is the twisting of an object due to an applied torque.
Specified 28-Day Compressive Strength of Concrete - (Measured in Pascal) - Specified 28-Day Compressive Strength of Concrete is the maximum compressive load concrete can withstand after the concrete mix is formed.
Sum for Component Rectangles of Section - Sum for Component Rectangles of Section of the product of square of the shorter side and the longer side of each rectangle.

STEP 1: Convert Input(s) to Base Unit

Specified 28-Day Compressive Strength of Concrete: 50 Megapascal --> 50000000 Pascal (Check conversion here)
Sum for Component Rectangles of Section: 20.1 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T = 0.55*(0.5*f'_c*Σx²y) --> 0.55*(0.5*50000000*20.1)

Evaluating ... ...

T = 276375000

STEP 3: Convert Result to Output's Unit

276375000 Pascal -->276.375 Megapascal (Check conversion here)

FINAL ANSWER

276.375 Megapascal <-- Maximum Torsion

(Calculation completed in 00.020 seconds)

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< Working Stress Design for Torsion Calculators

Spacing of Closed Stirrups for Torsion under Working Stress Design

LaTeX Go Stirrup Spacing = (3*Area of One Leg of Closed Stirrup*Coefficient*Shorter Dimension Legs of Closed Stirrup*Longer Dimension Legs of Closed Stirrup*Allowable Stress in Stirrup Steel)/(Torsional Stress-Maximum Allowable Torsion)*Sum for Component Rectangles of Section

Maximum Torsion due to Service Load for Torsion Effects

LaTeX Go Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section)

Maximum Torsion due to Service Load for Torsion Effects Formula

LaTeX Go

Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section)
T = 0.55*(0.5*f'_c*Σx²y)

What is Torsion in RCC?

Torsion in RCC is when external loads act far away from the vertical plane of bending, the beam is subjected to twisting about its longitudinal axis.

What are Service Loads?

The service load is the best estimate of the actual load that a concrete member may be called on to support.

How to Calculate Maximum Torsion due to Service Load for Torsion Effects?

Maximum Torsion due to Service Load for Torsion Effects calculator uses Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section) to calculate the Maximum Torsion, The Maximum Torsion due to Service Load for Torsion Effects formula is defined as the parameters of 28-day Compressive Strength of Concrete and the sum for the component Rectangles of the section of the product of the square of the shorter side and the longer side of each rectangle. Maximum Torsion is denoted by T symbol.

How to calculate Maximum Torsion due to Service Load for Torsion Effects using this online calculator? To use this online calculator for Maximum Torsion due to Service Load for Torsion Effects, enter Specified 28-Day Compressive Strength of Concrete (f'_c) & Sum for Component Rectangles of Section (Σx²y) and hit the calculate button. Here is how the Maximum Torsion due to Service Load for Torsion Effects calculation can be explained with given input values -> 0.000275 = 0.55*(0.5*50000000*20.1).

FAQ

What is Maximum Torsion due to Service Load for Torsion Effects?

The Maximum Torsion due to Service Load for Torsion Effects formula is defined as the parameters of 28-day Compressive Strength of Concrete and the sum for the component Rectangles of the section of the product of the square of the shorter side and the longer side of each rectangle and is represented as T = 0.55*(0.5*f'_c*Σx²y) or Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section). Specified 28-Day Compressive Strength of Concrete is the maximum compressive load concrete can withstand after the concrete mix is formed & Sum for Component Rectangles of Section of the product of square of the shorter side and the longer side of each rectangle.

How to calculate Maximum Torsion due to Service Load for Torsion Effects?

The Maximum Torsion due to Service Load for Torsion Effects formula is defined as the parameters of 28-day Compressive Strength of Concrete and the sum for the component Rectangles of the section of the product of the square of the shorter side and the longer side of each rectangle is calculated using Maximum Torsion = 0.55*(0.5*Specified 28-Day Compressive Strength of Concrete*Sum for Component Rectangles of Section). To calculate Maximum Torsion due to Service Load for Torsion Effects, you need Specified 28-Day Compressive Strength of Concrete (f'_c) & Sum for Component Rectangles of Section (Σx²y). With our tool, you need to enter the respective value for Specified 28-Day Compressive Strength of Concrete & Sum for Component Rectangles of Section and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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