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Strength and stability of steel beam columns under blast load

2012; Elsevier BV; Volume: 55; Linguagem: Inglês

10.1016/j.ijimpeng.2012.11.010

1879-3509

Amr A. Nassr, A. Ghani Razaqpur, Michael J. Tait, Manuel Campidelli, Simon Foo,

High-Velocity Impact and Material Behavior

A Single-Degree-of-Freedom (SDOF) model is used to determine the effect of axial load on column strength and stability during a blast event. The model, which accounts for the axial load–bending interaction (P–δ effect) and strain rate effect on the column dynamic response, is validated by comparing its results with experimental data from blast tests on full scale steel columns and with the results of the finite element software LS-DYNA. Maximum displacements and moments obtained from SDOF analysis are also compared with the results of the interaction formulas recommended by the Unified Facilities Criteria (UFC 3-340-02) design manual for steel structures. It is shown that the UFC method overestimates the column capacity for ductility ratios μ greater than one, irrespective of the axial load to Euler elastic buckling load ratio (P/Pe). Also for P/Pe > 0.5, even if μ < 1.0, the UFC method still overestimates the actual column capacity. For dealing with this problem in practical applications, non-dimensional beam column curves are developed to include the effects of the blast load and column properties on both its strength and stability.