Strength and deformation of arbitrary beam sections using adaptive FEM
Journal article, 2006

Still today, structural design is often based on simplified hand-calculation formulas for special cases, which is tedious to apply and do not cover more general situations. To improve the situation, the paper presents a FE-program for analysis of strength and deformation of arbitrary beam cross sections of steel and concrete loaded by all six force and moments components. The program is based on (1) an enhanced beam theory with three-dimensional state of stress, (2) multi-surface elasto-plasticity for modeling of the materials (3) efficient numerical algorithms (mesh adaptive FEM, arc-length method, etc). The paper presents the theory behind the program and some initial numerical testing to show how the program works. The initial numerical testing on steel and reinforced concrete beam sections loaded in bending, shear and torsion show promising results.

reinforced concrete

torsion

section

beam

steel

adaptive

FEM

shear

bending

Author

Per Kettil

Chalmers, Applied Mechanics, Material and Computational Mechanics

Juan Jose Rodenas Garcia

Claudio Aguilera Torres

Nils-Erik Wiberg

Chalmers, Applied Mechanics, Material and Computational Mechanics

Computers & Structures

Subject Categories

Other Civil Engineering

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Latest update

12/13/2018