Stress in Transverse Reinforcement given End Zone Reinforcement Solution

STEP 0: Pre-Calculation Summary
Formula Used
Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement
fs = Fbst/Ast
This formula uses 3 Variables
Variables Used
Stress in Transverse Reinforcement - (Measured in Newton per Square Millimeter) - Stress in Transverse Reinforcement can be represented as the stress induced in the steel which are aligned in transverse direction or perpendicular direction to the axis.
Prestress Bursting force - (Measured in Kilonewton) - The Prestress Bursting force represents the resultant of the tensile stress in a transverse direction.
End Zone Reinforcement - (Measured in Square Meter) - End Zone Reinforcement can be defined as the reinforcement which restrict the splitting of concrete, in addition to shear reinforcement, provided at each ends of member.
STEP 1: Convert Input(s) to Base Unit
Prestress Bursting force: 68 Kilonewton --> 68 Kilonewton No Conversion Required
End Zone Reinforcement: 0.272 Square Meter --> 0.272 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
fs = Fbst/Ast --> 68/0.272
Evaluating ... ...
fs = 250
STEP 3: Convert Result to Output's Unit
250000000 Pascal -->250 Newton per Square Millimeter (Check conversion here)
FINAL ANSWER
250 Newton per Square Millimeter <-- Stress in Transverse Reinforcement
(Calculation completed in 00.004 seconds)

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12 Post-Tensioned Members Calculators

Cube Strength at Transfer given Allowable Bearing Stress
Go Cube Strength = Allowable Bearing Stress in Members/(0.48*sqrt(Bearing Area Between Screw and Nut/Punching Area))
Allowable Bearing Stress in Local Zone
Go Allowable Bearing Stress in Members = 0.48*Cube Strength*sqrt(Bearing Area Between Screw and Nut/Punching Area)
Transverse Dimension of End Zone given Bursting Force for Square End Zone
Go Traverse Dimension of End Zone = (-0.3*Side Length of Bearing Plate)/((Prestress Bursting force/Prestressing Force)-0.32)
Length of Side of Bearing Plate given Bursting Force for Square End Zone
Go Side Length of Bearing Plate = -(((Prestress Bursting force/Prestressing Force)-0.32)/0.3)*Traverse Dimension of End Zone
Prestress in Tendon given Bursting Force for Square End Zone
Go Prestressing Force = Prestress Bursting force/(0.32-0.3*(Side Length of Bearing Plate/Traverse Dimension of End Zone))
Bursting Force for Square End Zone
Go Prestress Bursting force = Prestressing Force*(0.32-0.3*(Side Length of Bearing Plate/Traverse Dimension of End Zone))
End Zone Reinforcement along Transmission Length
Go End Zone Reinforcement = (2.5*Moment in Structures)/(Allowable Stress*Total Depth)
Allowable Stress given End Zone Reinforcement
Go Allowable Stress = (2.5*Moment in Structures)/(End Zone Reinforcement*Total Depth)
Stress in Transverse Reinforcement given End Zone Reinforcement
Go Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement
End Zone Reinforcement in each Direction
Go End Zone Reinforcement = Prestress Bursting force/Stress in Transverse Reinforcement
Prestress in Tendon given Bearing Stress
Go Prestressing Force = Bearing Stress*Punching Area
Bearing Stress in Local Zone
Go Bearing Stress = Prestressing Force/Punching Area

Stress in Transverse Reinforcement given End Zone Reinforcement Formula

Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement
fs = Fbst/Ast

What is meant by Bursting Force?

Bursting force is the capacity of a reinforcement in the section or substance to resist change when under pressure. Bursting force is the capacity of a reinforcement in the section or substance to resist change when under pressure. A large bearing stress is generated in the axial direction of the concrete member around the bearing plate and a tensile stress is generated in the vertical direction of the tendons. This tensile stress is called a bursting force. The bursting force should be resisted by properly designed reinforcement.

What does End Zone Reinforcement mean?

The End Zone Reinforcement in each Direction(Ast) is transverse reinforcement is provided in each principle direction based on the value of bursting force. To restrict the splitting of concrete, transverse reinforcement (in addition to the reinforcement for shear) needs to be provided at each end of a member along the transmission length. This reinforcement is known as end zone reinforcement.

How to Calculate Stress in Transverse Reinforcement given End Zone Reinforcement?

Stress in Transverse Reinforcement given End Zone Reinforcement calculator uses Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement to calculate the Stress in Transverse Reinforcement, The Stress in Transverse Reinforcement given End Zone Reinforcement formula is defined as the stress that can be safely applied to structure transversely. Stress in Transverse Reinforcement is denoted by fs symbol.

How to calculate Stress in Transverse Reinforcement given End Zone Reinforcement using this online calculator? To use this online calculator for Stress in Transverse Reinforcement given End Zone Reinforcement, enter Prestress Bursting force (Fbst) & End Zone Reinforcement (Ast) and hit the calculate button. Here is how the Stress in Transverse Reinforcement given End Zone Reinforcement calculation can be explained with given input values -> 0.000922 = 68000/0.272.

FAQ

What is Stress in Transverse Reinforcement given End Zone Reinforcement?
The Stress in Transverse Reinforcement given End Zone Reinforcement formula is defined as the stress that can be safely applied to structure transversely and is represented as fs = Fbst/Ast or Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement. The Prestress Bursting force represents the resultant of the tensile stress in a transverse direction & End Zone Reinforcement can be defined as the reinforcement which restrict the splitting of concrete, in addition to shear reinforcement, provided at each ends of member.
How to calculate Stress in Transverse Reinforcement given End Zone Reinforcement?
The Stress in Transverse Reinforcement given End Zone Reinforcement formula is defined as the stress that can be safely applied to structure transversely is calculated using Stress in Transverse Reinforcement = Prestress Bursting force/End Zone Reinforcement. To calculate Stress in Transverse Reinforcement given End Zone Reinforcement, you need Prestress Bursting force (Fbst) & End Zone Reinforcement (Ast). With our tool, you need to enter the respective value for Prestress Bursting force & End Zone Reinforcement 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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