Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
Chandana P Dev has created this Calculator and 100+ more calculators!
Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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8 Other formulas that you can solve using the same Inputs

Minimum Width of Plate When Plate Thickness is Given
Minimum width of plate=2*Plate thickness*sqrt(Allowable bending stress/(3*Actual bearing pressure))+(2*Distance from beam bottom to web fillet) GO
Plate Thickness
Plate thickness=sqrt(3*Actual bearing pressure/Allowable bending stress)*((0.5*Minimum width of plate)-Distance from beam bottom to web fillet) GO
Thickness of Plate When Flange Thickness for H shaped Column is Given
Base Plate Thickness=Flange thickness of H shaped columns*sqrt((3*Actual bearing pressure)/Allowable bending stress) GO
Thickness of Plate
Plate thickness=2*Limiting size*sqrt(Actual bearing pressure/Specified minimum yield stress) GO
Minimum Bearing Length of Plate When Actual Bearing Pressure is Given
Minimum bearing length=Beam reaction/(Minimum width of plate*Actual bearing pressure) GO
Minimum Width of Plate When Actual Bearing Pressure is Given
Minimum width of plate=Beam reaction/(Actual bearing pressure*Minimum bearing length) GO
Actual Bearing Pressure Under Plate
Actual bearing pressure=Beam reaction/(Minimum width of plate*Minimum bearing length) GO
Beam Reaction when Actual Bearing Pressure is Given
Beam reaction=Actual bearing pressure*Minimum width of plate*Minimum bearing length GO

Allowable Bending Stress When Plate Thickness is Given Formula

Allowable bending stress=(0.75*Actual bearing pressure*(Minimum width of plate-2*Distance from beam bottom to web fillet)^2)/Plate thickness^2
F<sub>b</sub>=(0.75*f<sub>p</sub>*(B-2*k)^2)/t^2
More formulas
Area Required by the Bearing Plate When Full Concrete Area is Used for Support GO
Beam Reaction when Area Required by Bearing Plat is Given GO
Area Required by the Bearing Plate if the Plate Covers Less than Full Area of Concrete For Support GO
Allowable Bearing Stress on Concrete when Full Area is Used for Support GO
Allowable Bearing Stress on Concrete when Less Than Full Area is Used for Support GO
Actual Bearing Pressure Under Plate GO
Minimum Bearing Length of Plate When Actual Bearing Pressure is Given GO
Minimum Width of Plate When Actual Bearing Pressure is Given GO
Beam Reaction when Actual Bearing Pressure is Given GO
Plate Thickness GO
Minimum Width of Plate When Plate Thickness is Given GO

What are bearing plates?

It is a plate placed under one end of a truss beam, girder, or column to distribute the load. Bearing plates are used to transfer concentrated compressive forces between two structural elements. Typically this occurs in two conditions: When a beam or column is supported by concrete or masonry, or. When a beam supports are large concentrated load from a supported element, such as a column.

How to Calculate Allowable Bending Stress When Plate Thickness is Given?

Allowable Bending Stress When Plate Thickness is Given calculator uses Allowable bending stress=(0.75*Actual bearing pressure*(Minimum width of plate-2*Distance from beam bottom to web fillet)^2)/Plate thickness^2 to calculate the Allowable bending stress, The Allowable Bending Stress When Plate Thickness is Given explains the relationship involved between actual bearing pressure and width and thickness of plate. . Allowable bending stress and is denoted by Fb symbol.

How to calculate Allowable Bending Stress When Plate Thickness is Given using this online calculator? To use this online calculator for Allowable Bending Stress When Plate Thickness is Given, enter Actual bearing pressure (fp), Minimum width of plate (B), Distance from beam bottom to web fillet (k) and Plate thickness (t) and hit the calculate button. Here is how the Allowable Bending Stress When Plate Thickness is Given calculation can be explained with given input values -> 9.338E+6 = (0.75*50000000*(50-2*0.05)^2)/0.1^2.

FAQ

What is Allowable Bending Stress When Plate Thickness is Given?
The Allowable Bending Stress When Plate Thickness is Given explains the relationship involved between actual bearing pressure and width and thickness of plate. and is represented as Fb=(0.75*fp*(B-2*k)^2)/t^2 or Allowable bending stress=(0.75*Actual bearing pressure*(Minimum width of plate-2*Distance from beam bottom to web fillet)^2)/Plate thickness^2. Actual bearing pressure is the exact bearing capacity of the given structure. , Minimum width of plate is the value of breadth of plate which must at least satisfy for the safe deign. , Distance from beam bottom to web fillet is the distance between specified two points. and Plate thickness is the distance through the bearing plate. .
How to calculate Allowable Bending Stress When Plate Thickness is Given?
The Allowable Bending Stress When Plate Thickness is Given explains the relationship involved between actual bearing pressure and width and thickness of plate. is calculated using Allowable bending stress=(0.75*Actual bearing pressure*(Minimum width of plate-2*Distance from beam bottom to web fillet)^2)/Plate thickness^2. To calculate Allowable Bending Stress When Plate Thickness is Given, you need Actual bearing pressure (fp), Minimum width of plate (B), Distance from beam bottom to web fillet (k) and Plate thickness (t). With our tool, you need to enter the respective value for Actual bearing pressure, Minimum width of plate, Distance from beam bottom to web fillet and Plate thickness 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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