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The influence of the fabrication process on the buckling of thin-walled steel box sections
Authors:Martin Pircher   Martin D. O'Shea  Russell Q. Bridge  
Abstract:Steel box sections are usually fabricated from flat plates which are welded at the corners. The welding process can introduce residual stresses and geometric imperfections into the sections which can influence their strength. For some thin-walled sections, large periodic geometric imperfections have been observed in manufactured sections. Subsequent investigations have indicated that the imperfections are in fact buckling deformations i.e. the box section has buckled due to welding residual stresses prior to any application of external load. The welding procedure and the behaviour of the box sections under load has been modelled using a finite element analysis that accounts for both geometric and material non-linearities. Tests have been carried out on box sections with a range of width to thickness ratios for the plate elements. Modelling has been shown to give good correlation with the test results. The conditions for buckling to take place as a result of the welding process have been established. A design method has been proposed.
Keywords:Axial load capacity   Buckling   Design   Geometric imperfections   Residual stresses   Steel   Strength   Thin-walled box sections   Welding
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