: Assumes linear elastic behavior and small movements.
Kleinlogel beam formulas are a set of mathematical equations used to determine the deflection and slope of beams subjected to point loads, uniformly distributed loads, and other loading conditions. These formulas are based on the Euler-Bernoulli beam theory, which assumes that the beam is slender, and the plane sections remain plane after deformation. kleinlogel beam formulas
Understanding Kleinlogel Beam Formulas: The Structural Engineer’s Essential Reference : Assumes linear elastic behavior and small movements
(Veränderliches Trägheitsmoment)
δ = (P × L^3) / (48 × E × I)
For a simply supported beam with a point load at the center, the Kleinlogel beam formula for deflection (δ) is: uniformly distributed loads