Stress (Tangential) in Cylinder

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Last modified by

KurtHeckman

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Aug 31, 2023, 3:39:53 PM

Created by

MichaelBartmess

on

Feb 16, 2015, 7:15:20 PM

$sigma_"t_int" = "P" *( r_o ^2 + r_i ^2) / ( r_o ^2 - r_i ^2)$

$(P) "Internal Pressure"$

$(r_o) "Outer Radius"$

$(r_i) "Inner Radius"$

The Math / Science

The Tangential Stress in a Cylinder calculator computes the tangential stress on the inner wall of a closed cylindrical pressure vessel.¹ The tangential stress is also sometimes called the "hoop stress" as it is the surface wall stress all the way around the cylinder. The formula for the Tangential Stress in a Cylinder is:

$sigma_"t_int" = P*(r_o^2 + r_i^2) / (r_o^2 - r_i^2)$

where:

σ = Tangential Stress in a Cylinder
P = the pressure inside the closed cylinder
r_o = outer radius of the cylinder
r_i = inner radius of the cylinder

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^ Fundamentals of Engineering. 8th edition, 2nd Revision. National Council of Examiners for Engineering and Surveying (NCEES) - 2001. ISBN 978-1-932613-59-9. pg 33

This equation, Stress (Tangential) in Cylinder, is used in 2 pages

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• Engineering: Stress & Strain by MichaelBartmess

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Stress (Tangential) in Cylinder

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