Principal Stress Calculator

Calculate Principal Stresses





Formula

The formulas to calculate the principal stresses (σ1 and σ2) are:

\[ \sigma_{1,2} = \frac{1}{2} \left[ \sigma_x + \sigma_y \pm \sqrt{(\sigma_x - \sigma_y)^2 + 4\tau^2} \right] \]

Where:

What is Principal Stress?

Principal stress refers to the maximum and minimum stresses experienced by an object or material in a given loading condition. It provides valuable information about the behavior and strength of materials under different loading conditions. When an object is subjected to external forces or loads, it experiences internal stresses that can cause deformation or failure. Principal stress helps in determining the highest and lowest stress values within a material, along with their corresponding orientations.

Example Calculation

Consider an example where:

Using the formulas to calculate the principal stresses:

\[ \sigma_{1} = \frac{50 + 30 + \sqrt{(50 - 30)^2 + 4 \times 10^2}}{2} = \frac{80 + \sqrt{400 + 400}}{2} = \frac{80 + \sqrt{800}}{2} = \frac{80 + 28.28}{2} = 54.14 \text{ MPa} \]

\[ \sigma_{2} = \frac{50 + 30 - \sqrt{(50 - 30)^2 + 4 \times 10^2}}{2} = \frac{80 - \sqrt{800}}{2} = \frac{80 - 28.28}{2} = 25.86 \text{ MPa} \]

This means that the principal stresses are approximately 54.14 MPa and 25.86 MPa.