Thickness of Web given Maximum Shear Stress and Force Solution

STEP 0: Pre-Calculation Summary
Formula Used
Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2)
b = (B*Fs*(D^2-d^2))/(8* I*𝜏beam-Fs*d^2)
This formula uses 7 Variables
Variables Used
Thickness of Beam Web - (Measured in Meter) - Thickness of Beam Web is the thickness of the vertical piece that connects the two flanges.
Width of Beam Section - (Measured in Meter) - Width of Beam Section is the width of the rectangular cross-section of the beam parallel to the axis in consideration.
Shear Force on Beam - (Measured in Newton) - Shear Force on Beam is the force which causes shear deformation to occur in the shear plane.
Outer Depth of I section - (Measured in Meter) - The Outer Depth of I section is a measure of distance, the distance between the outer bars of the I-section.
Inner Depth of I Section - (Measured in Meter) - Inner Depth of I Section is a measure of distance, the distance between the inner bars of the I-section.
Moment of Inertia of Area of Section - (Measured in Meter⁴) - Moment of Inertia of Area of Section is the second moment of the area of the section about the neutral axis.
Shear Stress in Beam - (Measured in Pascal) - Shear Stress in Beam is force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress.
STEP 1: Convert Input(s) to Base Unit
Width of Beam Section: 100 Millimeter --> 0.1 Meter (Check conversion here)
Shear Force on Beam: 4.8 Kilonewton --> 4800 Newton (Check conversion here)
Outer Depth of I section: 9000 Millimeter --> 9 Meter (Check conversion here)
Inner Depth of I Section: 450 Millimeter --> 0.45 Meter (Check conversion here)
Moment of Inertia of Area of Section: 0.00168 Meter⁴ --> 0.00168 Meter⁴ No Conversion Required
Shear Stress in Beam: 6 Megapascal --> 6000000 Pascal (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
b = (B*Fs*(D^2-d^2))/(8* I*𝜏beam-Fs*d^2) --> (0.1*4800*(9^2-0.45^2))/(8* 0.00168*6000000-4800*0.45^2)
Evaluating ... ...
b = 0.486805241753276
STEP 3: Convert Result to Output's Unit
0.486805241753276 Meter -->486.805241753276 Millimeter (Check conversion here)
FINAL ANSWER
486.805241753276 486.8052 Millimeter <-- Thickness of Beam Web
(Calculation completed in 00.020 seconds)

Credits

Created by Anshika Arya
National Institute Of Technology (NIT), Hamirpur
Anshika Arya has created this Calculator and 2000+ more calculators!
Verified by Dipto Mandal
Indian Institute of Information Technology (IIIT), Guwahati
Dipto Mandal has verified this Calculator and 400+ more calculators!

18 Shear Stress Distribution in Web Calculators

Shear Force in Web
Go Shear Force on Beam = (Moment of Inertia of Area of Section*Thickness of Beam Web*Shear Stress in Beam)/((Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/8+Thickness of Beam Web/2*(Inner Depth of I Section^2/4-Distance from Neutral Axis^2))
Moment of Inertia of I-Section given Shear Stress of Web
Go Moment of Inertia of Area of Section = Shear Force on Beam/(Shear Stress in Beam*Thickness of Beam Web)*(Width of Beam Section/8*(Outer Depth of I section^2-Inner Depth of I Section^2)+Thickness of Beam Web/2*(Inner Depth of I Section^2/4-Distance from Neutral Axis^2))
Shear Stress in Web
Go Shear Stress in Beam = Shear Force on Beam/(Moment of Inertia of Area of Section*Thickness of Beam Web)*(Width of Beam Section/8*(Outer Depth of I section^2-Inner Depth of I Section^2)+Thickness of Beam Web/2*(Inner Depth of I Section^2/4-Distance from Neutral Axis^2))
Thickness of Web given Shear Stress of Web
Go Thickness of Beam Web = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*(Inner Depth of I Section^2-4*Distance from Neutral Axis^2))
Maximum Shear Stress in I Section
Go Maximum Shear Stress on Beam = Shear Force on Beam/(Moment of Inertia of Area of Section*Thickness of Beam Web)*((Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/8+(Thickness of Beam Web*Inner Depth of I Section^2)/8)
Maximum Shear Force in I Section
Go Shear Force on Beam = (Maximum Shear Stress on Beam*Moment of Inertia of Area of Section*Thickness of Beam Web)/((Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/8+(Thickness of Beam Web*Inner Depth of I Section^2)/8)
Moment of Inertia of I-Section given Maximum Shear Stress and Force
Go Moment of Inertia of Area of Section = Shear Force on Beam/(Shear Stress in Beam*Thickness of Beam Web)*((Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/8+(Thickness of Beam Web*Inner Depth of I Section^2)/8)
Thickness of Web given Maximum Shear Stress and Force
Go Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2)
Moment of Inertia of Section given Shear Stress at Junction of Top of Web
Go Moment of Inertia of Area of Section = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8*Shear Stress in Beam*Thickness of Beam Web)
Thickness of Web given Shear Stress at Junction of Top of Web
Go Thickness of Beam Web = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8*Moment of Inertia of Area of Section*Shear Stress in Beam)
Width of Section given Shear Stress at Junction of Top of Web
Go Width of Beam Section = (Shear Stress in Beam*8*Moment of Inertia of Area of Section*Thickness of Beam Web)/(Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))
Shear Stress at Junction of Top of Web
Go Shear Stress in Beam = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8*Moment of Inertia of Area of Section*Thickness of Beam Web)
Shear Force at Junction of Top of Web
Go Shear Force on Beam = (8*Moment of Inertia of Area of Section*Thickness of Beam Web*Shear Stress in Beam)/(Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))
Thickness of Web
Go Thickness of Beam Web = (2*Moment of Inertia of Area of Section)/((Inner Depth of I Section^2)/4-Distance from Neutral Axis^2)
Moment of Shaded Area of Web about Neutral Axis
Go Moment of Inertia of Area of Section = Thickness of Beam Web/2*(Inner Depth of I Section^2/4-Distance from Neutral Axis^2)
Width of Section given Moment of Flange Area about Neutral Axis
Go Width of Beam Section = (8*Moment of Inertia of Area of Section)/(Outer Depth of I section^2-Inner Depth of I Section^2)
Moment of Flange Area about Neutral Axis
Go Moment of Inertia of Area of Section = (Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/8
Distance of Considered Level from Neutral Axis at Junction of Top of Web
Go Distance from Neutral Axis = Inner Depth of I Section/2

Thickness of Web given Maximum Shear Stress and Force Formula

Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2)
b = (B*Fs*(D^2-d^2))/(8* I*𝜏beam-Fs*d^2)

Why shear stress is maximum at neutral axis?

The maximum shear stress is located at the neutral axis. As the point moves further from the neutral axis, the value of the shear stress is reduced until it reaches zero at both extremes. On the other hand, if the member is subjected to an axial load, shear stress varies with rotating the element.

How to Calculate Thickness of Web given Maximum Shear Stress and Force?

Thickness of Web given Maximum Shear Stress and Force calculator uses Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2) to calculate the Thickness of Beam Web, The Thickness of web given maximum shear stress and force formula is defined as the measurement of how thick the web is. Thickness of Beam Web is denoted by b symbol.

How to calculate Thickness of Web given Maximum Shear Stress and Force using this online calculator? To use this online calculator for Thickness of Web given Maximum Shear Stress and Force, enter Width of Beam Section (B), Shear Force on Beam (Fs), Outer Depth of I section (D), Inner Depth of I Section (d), Moment of Inertia of Area of Section (I) & Shear Stress in Beam (𝜏beam) and hit the calculate button. Here is how the Thickness of Web given Maximum Shear Stress and Force calculation can be explained with given input values -> 486805.2 = (0.1*4800*(9^2-0.45^2))/(8* 0.00168*6000000-4800*0.45^2).

FAQ

What is Thickness of Web given Maximum Shear Stress and Force?
The Thickness of web given maximum shear stress and force formula is defined as the measurement of how thick the web is and is represented as b = (B*Fs*(D^2-d^2))/(8* I*𝜏beam-Fs*d^2) or Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2). Width of Beam Section is the width of the rectangular cross-section of the beam parallel to the axis in consideration, Shear Force on Beam is the force which causes shear deformation to occur in the shear plane, The Outer Depth of I section is a measure of distance, the distance between the outer bars of the I-section, Inner Depth of I Section is a measure of distance, the distance between the inner bars of the I-section, Moment of Inertia of Area of Section is the second moment of the area of the section about the neutral axis & Shear Stress in Beam is force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress.
How to calculate Thickness of Web given Maximum Shear Stress and Force?
The Thickness of web given maximum shear stress and force formula is defined as the measurement of how thick the web is is calculated using Thickness of Beam Web = (Width of Beam Section*Shear Force on Beam*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*Inner Depth of I Section^2). To calculate Thickness of Web given Maximum Shear Stress and Force, you need Width of Beam Section (B), Shear Force on Beam (Fs), Outer Depth of I section (D), Inner Depth of I Section (d), Moment of Inertia of Area of Section (I) & Shear Stress in Beam (𝜏beam). With our tool, you need to enter the respective value for Width of Beam Section, Shear Force on Beam, Outer Depth of I section, Inner Depth of I Section, Moment of Inertia of Area of Section & Shear Stress in Beam 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 Thickness of Beam Web?
In this formula, Thickness of Beam Web uses Width of Beam Section, Shear Force on Beam, Outer Depth of I section, Inner Depth of I Section, Moment of Inertia of Area of Section & Shear Stress in Beam. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Thickness of Beam Web = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8*Moment of Inertia of Area of Section*Shear Stress in Beam)
  • Thickness of Beam Web = (Shear Force on Beam*Width of Beam Section*(Outer Depth of I section^2-Inner Depth of I Section^2))/(8* Moment of Inertia of Area of Section*Shear Stress in Beam-Shear Force on Beam*(Inner Depth of I Section^2-4*Distance from Neutral Axis^2))
  • Thickness of Beam Web = (2*Moment of Inertia of Area of Section)/((Inner Depth of I Section^2)/4-Distance from Neutral Axis^2)
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!