Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
Rithik Agrawal has created this Calculator and 400+ more calculators!
Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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11 Other formulas that you can solve using the same Inputs

Heat Loss due to Pipe
Heat Loss due to Pipe=(Force*Length*Fluid Velocity^2)/(2*Diameter *Acceleration Due To Gravity) GO
Reynolds Number for Circular Tubes
Reynolds Number=Density*Fluid Velocity*Diameter /Dynamic viscosity GO
Perimeter of a Semicircle when circumference of circle is given
Perimeter=(Circumference of Circle/2)+Diameter GO
Diameter of circumscribing sphere when diameter and height of circumscribed cylinder is known
Diameter of Sphere=sqrt(Diameter ^2+Height^2) GO
Cutting Speed
Cutting Speed=pi*Diameter *Angular Speed GO
Area of a Circle when diameter is given
Area of Circle=(pi/4)*Diameter ^2 GO
Perimeter of a quarter circle when diameter is given
Perimeter=Diameter *((pi/4)+1) GO
Perimeter of a Semicircle when diameter is given
Perimeter=Diameter *((pi/2)+1) GO
Area of a quarter circle when diameter is given
Area=(pi*(Diameter )^2)/16 GO
Area of a Semicircle when diameter is given
Area=(pi*(Diameter )^2)/8 GO
Radius of a circle when diameter is given
Radius=Diameter /2 GO

11 Other formulas that calculate the same Output

Steel yield strength for Compact Section for LFD when Maximum Unbraced Length is Given
yield strength of steel=((3600-2200*(Smaller Moment/Maximum Moment))*Least Radius of Gyration)/Maximum Unbraced Length GO
Steel yield strength for Braced Non-Compact Section for LFD when Maximum Unbraced Length is Given
yield strength of steel=(20000*Area of Flange)/(Maximum Unbraced Length*Depth of Section) GO
Steel yield strength for Braced Non-Compact Section for LFD when Minimum Flange Thickness is Given
yield strength of steel=(69.6*Minimum Flange Thickness/Width of Projection of Flange)^2 GO
Steel yield strength for Compact Section for LFD when Minimum Flange Thickness is Given
yield strength of steel=(65*Minimum Flange Thickness/Width of Projection of Flange)^2 GO
Steel yield strength for Compact Section for LFD when Maximum Bending Moment is Given
yield strength of steel=Maximum Bending Moment/Plastic Section Modulus GO
Steel yield strength for Compact Section for LFD when Minimum Web Thickness is Given
yield strength of steel=(608*Minimum Web Thickness/Depth of Section)^2 GO
Steel yield strength on Pins not subject to rotation for Bridges for LFD when Pin Stresses is Given
yield strength of steel=Allowable Bearing Stresses on Pins/0.8 GO
Steel yield strength for Braced Non-Compact Section for LFD when Maximum Bending Moment is Given
yield strength of steel=Maximum Bending Moment/Section Modulus GO
Steel yield strength on Pins subject to rotation for Bridges for LFD when Pin Stresses is Given
yield strength of steel=Allowable Bearing Stresses on Pins/0.4 GO
Steel yield strength on Pins for Buildings for LFD when Allowable Bearing Stresses is Given
yield strength of steel=Allowable Bearing Stresses on Pins/0.9 GO
Steel Yield Strength when Allowable Unit Stress in Bending is Given
yield strength of steel=Allowable Unit Tensile Stress/0.55 GO

Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given Formula

yield strength of steel=(20*Allowable Bearing Stresses on Pins/3.0*(Diameter ^0.5))+13
f<sub>y</sub>=(20*F<sub>up</sub>/3.0*(d^0.5))+13
More formulas
Allowable Bearing Stress for expansion rollers and rockers where diameter is up to 635 mm GO
Allowable Bearing Stress for expansion rollers and rockers where diameter is from 635 mm to 3175 mm GO
Steel Yield Strength for milled surface when allowable Bearing Stress for d < 635 mm is Given GO
Diameter of Roller or Rocker for milled surface when Allowable Stress is Given for d < 635 mm GO
Diameter of Roller or Rocker for milled surface when Allowable Stress is Given for d > 635 mm GO

What is Steel Yield Strength for Milled Surface ?

Yield strength is the maximum stress that can be applied before it begins to change shape permanently. This is an approximation of the elastic limit of the steel. If stress is added to the metal but does not reach the yield point, it will return to its original shape after the stress is removed

How to Calculate Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given?

Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given calculator uses yield strength of steel=(20*Allowable Bearing Stresses on Pins/3.0*(Diameter ^0.5))+13 to calculate the yield strength of steel, The Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given formula is defined as maximum stress at which milled surface behaves linearly with strain. yield strength of steel and is denoted by fy symbol.

How to calculate Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given using this online calculator? To use this online calculator for Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given, enter Allowable Bearing Stresses on Pins (Fup) and Diameter (d) and hit the calculate button. Here is how the Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given calculation can be explained with given input values -> 21.08186 = (20*1000000/3.0*(10^0.5))+13.

FAQ

What is Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given?
The Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given formula is defined as maximum stress at which milled surface behaves linearly with strain and is represented as fy=(20*Fup/3.0*(d^0.5))+13 or yield strength of steel=(20*Allowable Bearing Stresses on Pins/3.0*(Diameter ^0.5))+13. Allowable Bearing Stresses on Pins is the working stress on pins and Diameter is a straight line passing from side to side through the center of a body or figure, especially a circle or sphere.
How to calculate Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given?
The Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given formula is defined as maximum stress at which milled surface behaves linearly with strain is calculated using yield strength of steel=(20*Allowable Bearing Stresses on Pins/3.0*(Diameter ^0.5))+13. To calculate Steel Yield Strength for milled surface when allowable Bearing Stress for d > 635 mm is Given, you need Allowable Bearing Stresses on Pins (Fup) and Diameter (d). With our tool, you need to enter the respective value for Allowable Bearing Stresses on Pins and Diameter 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 yield strength of steel?
In this formula, yield strength of steel uses Allowable Bearing Stresses on Pins and Diameter . We can use 11 other way(s) to calculate the same, which is/are as follows -
  • yield strength of steel=Allowable Unit Tensile Stress/0.55
  • yield strength of steel=Maximum Bending Moment/Plastic Section Modulus
  • yield strength of steel=Maximum Bending Moment/Section Modulus
  • yield strength of steel=(69.6*Minimum Flange Thickness/Width of Projection of Flange)^2
  • yield strength of steel=(65*Minimum Flange Thickness/Width of Projection of Flange)^2
  • yield strength of steel=(608*Minimum Web Thickness/Depth of Section)^2
  • yield strength of steel=((3600-2200*(Smaller Moment/Maximum Moment))*Least Radius of Gyration)/Maximum Unbraced Length
  • yield strength of steel=(20000*Area of Flange)/(Maximum Unbraced Length*Depth of Section)
  • yield strength of steel=Allowable Bearing Stresses on Pins/0.9
  • yield strength of steel=Allowable Bearing Stresses on Pins/0.4
  • yield strength of steel=Allowable Bearing Stresses on Pins/0.8
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