Open AccessSoft Missile Impact on Shear Reinforced Concrete Wall
Author(s) -
Arja Saarenheimo,
Kim Calonius,
Markku Tuomala,
Ilkka Hakola
Publication year - 2010
Publication title -
journal of disaster research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.332
H-Index - 18
eISSN - 1883-8030
pISSN - 1881-2473
DOI - 10.20965/jdr.2010.p0426
Subject(s) - structural engineering , projectile , finite element method , deflection (physics) , shear (geology) , missile , transverse plane , nonlinear system , materials science , geology , engineering , composite material , physics , aerospace engineering , optics , quantum mechanics , metallurgy
In developing numerical approaches for predicting the response of reinforced concrete structures impacted on by deformable projectiles, we predict structural behavior collapse and damage using simple analysis and extensive nonlinear finite element (FE)models. To verify their accuracy, we compared numerical results to experimental data and observations on impact-loaded concrete walls with bending and transverse shear reinforcement. Different models prove adequate for different cases and are sensitive to different variables, making it important to rely on more than a single model alone. For wall deformation in bending mode, deflection is predicted reasonably well by simple four-node shell elements. Where punching dominates, transverse shear behavior must be considered. Formation of a shear failure cone is modeled using three-dimensional solid elements.