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## Bearing Area(Abr) when Allowable Bearing Stress is given Solution

STEP 0: Pre-Calculation Summary
Formula Used
bearing_area = (Allowable bearing stress/0.48*cube strength)^2*Punching area
Ab = (Fp/0.48*fci)^2*Apun
This formula uses 3 Variables
Variables Used
Allowable bearing stress - Allowable bearing stress is the maximum limit of stress allowed or permitted for bearing on concrete or masonry. (Measured in Megapascal)
cube strength - cube strength can be describes as the strength of the cube to transfer (Measured in Newton per Square Millimeter)
Punching area - Punching area can be described as the defined as the space occupied by a flat shape or the surface of an object. (Measured in Square Meter)
STEP 1: Convert Input(s) to Base Unit
Allowable bearing stress: 500 Megapascal --> 500000000 Pascal (Check conversion here)
cube strength: 50 Newton per Square Millimeter --> 50000000 Pascal (Check conversion here)
Punching area: 50 Square Meter --> 50 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ab = (Fp/0.48*fci)^2*Apun --> (500000000/0.48*50000000)^2*50
Evaluating ... ...
Ab = 1.35633680555556E+35
STEP 3: Convert Result to Output's Unit
1.35633680555556E+35 Square Meter -->1.35633680555556E+41 Square Millimeter (Check conversion here)
FINAL ANSWER
1.35633680555556E+41 Square Millimeter <-- Bearing Area Between Screw and Nut
(Calculation completed in 00.016 seconds)

## < 10+ Transmission of Prestress Calculators

Effective Prestress(fpe) when Bond Length for a Prestressed Tendon is given
effective_prestress = -(((Bond Length*4*design bond stress)/Equivalent/Nominal Diameter of Particle)-ultimate prestress) Go
Ultimate Prestress(fpu) when Bond Length for a Prestressed Tendon is given
ultimate_prestress = ((Bond Length*4*design bond stress)/Equivalent/Nominal Diameter of Particle)+Effective prestress Go
Design Bond Stress when Bond Length for a Prestressed Tendon is given
design_bond_stress = (ultimate prestress-Effective prestress)*Equivalent/Nominal Diameter of Particle/(4*Bond Length) Go
Bond Length for a Prestressed Tendon
bond_length = (ultimate prestress-Effective prestress)*Equivalent/Nominal Diameter of Particle/(4*design bond stress) Go
Nominal Diameter of the Tendon when Bond Length is given
nominal_diameter = (Bond Length*4*design bond stress)/(ultimate prestress-Effective prestress) Go
End Zone Reinforcement(Ast) Along Transmission Length
end_zone_reinforcement = (2.5*moment)/(Allowable Stress*Total depth) Go
Moment(M) when End Zone Reinforcement(Ast) is given
moment = (end zone reinforcement*Allowable Stress*Total depth)/2.5 Go
Transmission Length(Lt) when Development Length(Ld) of the Section is given
transmission_length = Development Length-Bond Length Go
Bond Length(Lb) when Development Length(Ld) of the Section is given
bond_length = Development Length-Transmission length Go
Development Length(Ld) of the Section
development_length = Transmission length+Bond Length Go

### Bearing Area(Abr) when Allowable Bearing Stress is given Formula

bearing_area = (Allowable bearing stress/0.48*cube strength)^2*Punching area
Ab = (Fp/0.48*fci)^2*Apun

## What is meant by allowable bearing stress?

The Allowable Bearing Stress in the Local Zone is the maximum stress that can be safely applied to a structure.

## How to Calculate Bearing Area(Abr) when Allowable Bearing Stress is given?

Bearing Area(Abr) when Allowable Bearing Stress is given calculator uses bearing_area = (Allowable bearing stress/0.48*cube strength)^2*Punching area to calculate the Bearing Area Between Screw and Nut, The Bearing Area(Abr) when Allowable Bearing Stress is given refers to the area of the screw head that directly bears on the part being fastened. (under the pressure in the bearing plate). Bearing Area Between Screw and Nut and is denoted by Ab symbol.

How to calculate Bearing Area(Abr) when Allowable Bearing Stress is given using this online calculator? To use this online calculator for Bearing Area(Abr) when Allowable Bearing Stress is given, enter Allowable bearing stress (Fp), cube strength (fci) and Punching area (Apun) and hit the calculate button. Here is how the Bearing Area(Abr) when Allowable Bearing Stress is given calculation can be explained with given input values -> 1.356E+41 = (500000000/0.48*50000000)^2*50.

### FAQ

What is Bearing Area(Abr) when Allowable Bearing Stress is given?
The Bearing Area(Abr) when Allowable Bearing Stress is given refers to the area of the screw head that directly bears on the part being fastened. (under the pressure in the bearing plate) and is represented as Ab = (Fp/0.48*fci)^2*Apun or bearing_area = (Allowable bearing stress/0.48*cube strength)^2*Punching area. Allowable bearing stress is the maximum limit of stress allowed or permitted for bearing on concrete or masonry, cube strength can be describes as the strength of the cube to transfer and Punching area can be described as the defined as the space occupied by a flat shape or the surface of an object.
How to calculate Bearing Area(Abr) when Allowable Bearing Stress is given?
The Bearing Area(Abr) when Allowable Bearing Stress is given refers to the area of the screw head that directly bears on the part being fastened. (under the pressure in the bearing plate) is calculated using bearing_area = (Allowable bearing stress/0.48*cube strength)^2*Punching area. To calculate Bearing Area(Abr) when Allowable Bearing Stress is given, you need Allowable bearing stress (Fp), cube strength (fci) and Punching area (Apun). With our tool, you need to enter the respective value for Allowable bearing stress, cube strength and Punching area and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Bearing Area Between Screw and Nut?
In this formula, Bearing Area Between Screw and Nut uses Allowable bearing stress, cube strength and Punching area. We can use 10 other way(s) to calculate the same, which is/are as follows -
• development_length = Transmission length+Bond Length
• transmission_length = Development Length-Bond Length
• bond_length = Development Length-Transmission length
• bond_length = (ultimate prestress-Effective prestress)*Equivalent/Nominal Diameter of Particle/(4*design bond stress)
• design_bond_stress = (ultimate prestress-Effective prestress)*Equivalent/Nominal Diameter of Particle/(4*Bond Length)
• nominal_diameter = (Bond Length*4*design bond stress)/(ultimate prestress-Effective prestress)
• ultimate_prestress = ((Bond Length*4*design bond stress)/Equivalent/Nominal Diameter of Particle)+Effective prestress
• effective_prestress = -(((Bond Length*4*design bond stress)/Equivalent/Nominal Diameter of Particle)-ultimate prestress)
• end_zone_reinforcement = (2.5*moment)/(Allowable Stress*Total depth)
• moment = (end zone reinforcement*Allowable Stress*Total depth)/2.5
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