BendingEnergy - crowlogic/arb4j GitHub Wiki

Bending energy, also known as flexural energy or bending strain energy, is a measure of the energy required to deform an object, typically a beam or a rod, by bending it. This energy is stored in the object as it undergoes deformation, and it is released when the object returns to its original shape, assuming the deformation is within the elastic limit of the material.

In the context of mechanical engineering and materials science, bending energy is often used to analyze and design structures that experience bending loads, such as beams, bridges, and other structural components. Bending energy is particularly important when evaluating the strength and stability of these structures, as well as their ability to resist failure under applied loads.

The bending energy can be calculated using the following equation:

U = (1/2) * E * I * ∫(dθ/dx)^2 dx

Where:

U is the bending energy,
E is the modulus of elasticity (also known as Young's modulus) of the material,
I is the area moment of inertia of the cross-sectional shape of the beam,
dθ/dx is the curvature of the deformed beam, and
the integral is taken over the length of the beam.

By understanding and calculating bending energy, engineers can design structures and materials that can efficiently withstand bending stresses while minimizing the risk of failure.