Distortional-global interaction in lipped channel and zed-section beams: Strength, relevance and DSM design

• Published in: Thin-walled structures Vol. 129; pp. 289 - 308
• Main Authors: Martins, André Dias, Camotim, Dinar, Dinis, Pedro Borges
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.08.2018
• Subjects: Cold-formed steel beams; Direct Strength Method (DSM) design; Distortional-global interaction; Failure moment data; Lipped channel and zed-section beams; Shell finite element analysis; Lipped channel and zed-section beams; Cold-formed steel beams; Direct Strength Method (DSM) design; Failure moment data; Shell finite element analysis; Distortional-global interaction
• ISSN: 0263-8231; 1879-3223
• DOI: 10.1016/j.tws.2018.02.015

This work aims at presenting and discussing numerical results concerning the post-buckling behaviour, strength and design of cold-formed steel simply supported lipped channel and zed-section beams under uniform bending and undergoing distortional-global (D-G) interaction – two different support conditions are considered in the lipped channel beams. The relevance of the interaction effects is assessed by identifying the beams whose ultimate strength and/or failure mode are visibly affected by them. Distinct (i) global-to-distortional critical buckling moment ratios (RGD) and (ii) yield-to-non-critical buckling (distortional or global) moment ratios (Ry) are considered, which are expected to lead to different failure mode natures (global, distortional or interactive). For each beam type, combinations of 41 geometries and 11 yield stresses are considered, in order (i) to characterise the beams experiencing “true D-G interaction” (RGD ≈ 1.0) and “secondary global-bifurcation D-G interaction” (RGD > 1.0 and high Ry) and (ii) to investigate the possible occurrence of “secondary distortional-bifurcation D-G interaction” (RGD < 1.0 and high Ry). Moreover, an in-depth investigation on the elastic post-buckling behaviour is carried out, to assess how the initial geometrical imperfection shape/configuration influences the behaviour and strength of beams prone to D-G interaction. The results presented consist of (i) relevant non-linear equilibrium paths, (ii) deformed configuration evolutions along those paths and (iii) figures providing the failure mode characterisation. Then, the numerical failure moments obtained are compared with their predictions by means of (i) the currently available Direct Strength Method (DSM) beam distortional and global strength curves, and also (if necessary) (ii) proposed DSM-based design approaches, specifically developed to handle beam D-G interactive failures. •In-depth study on the relevance of distortional-global (D-G) interaction in cold-formed steel (CFS) beams.•Post-buckling behaviour, strength and failure of CFS beams undergoing D-G interaction are investigated.•Simply supported uniformly bent beams analysed: lipped channels (major-axis) and zeds (skew bending).•Imperfection sensitivity study involving all possible combinations of critical-mode shapes is conducted.•Development and merit assessment of DSM-based design approaches against D-G interactive failures.