Cone Cylinder Stress and Deflection by Tangential Loading

Cone Cylinder Stress and Deflection by Tangential loading only can be used to calculate the stress and deflection in a cone-cylinder structure under tangential loading.

Input Parameters

Results

Calculation Formula

Stress = (Tangential Load * Cylinder Radius) / (2 * tan(Cone Angle/2) * Cylinder Height)

Deflection = (Tangential Load * Cylinder Height^3) / (3 * Young's Modulus * Cylinder Radius^2)

Where:
Cone Angle: The angle of the cone in degrees.
Cylinder Radius: Radius of the cylinder in meters.
Cylinder Height: Height of the cylinder in meters.
Tangential Load: Load applied tangentially in Newtons.
Young's Modulus: Material property in Pascals.

Cone Cylinder Stress and Deflection by Tangential Loading only Calculator Guide

Learn how to use the Cone Cylinder Stress and Deflection by Tangential Loading only calculator and its working principles.

How to Use the Calculator

  1. Enter the cone angle in degrees.
  2. Enter the radius of the cylinder in meters.
  3. Enter the height of the cylinder in meters.
  4. Enter the tangential load in Newtons.
  5. Click the "Calculate" button to compute the stress and deflection.
  6. The results will be displayed in the respective fields.

Working Principle

The calculator uses the following formulas to compute the stress and deflection:

Stress = (Tangential Load * Cylinder Radius) / (2 * tan(Cone Angle/2) * Cylinder Height)

Deflection = (Tangential Load * Cylinder Height^3) / (3 * Young's Modulus * Cylinder Radius^2)

These formulas take into account the geometry of the cone-cylinder structure and the applied load to determine the resulting stress and deflection.