Numerical investigation and direct strength design of cold-formed steel lipped channel columns experiencing local–distortional–global interaction

Abstract This paper reports the results of a numerical investigation concerning the relevance and Direct Strength Method (DSM) prediction of the ultimate strength erosion caused by local-distortional-global (LDG) interaction in cold-formed steel fixed-ended lipped channel columns. The geometries of the columns analysed (cross-section dimensions and lengths) were carefully selected to ensure that the three competing critical buckling loads are not more than 20% apart, thus guaranteeing a fairly high level of LDG coupling, and ordered in all the various possible sequences. In order to cover a wide slenderness range, several yield stresses are considered, falling below, in-between and above the lowest and highest critical buckling stresses. After providing a brief description of the column selection procedure, which is based on buckling analyses performed with Generalised Beam Theory (GBT), the methodology adopted to identify the most detrimental initial geometrical imperfection shape (in the sense it minimises the column strength) is addressed – it employs Koiter's asymptotic method along with a Monte Carlo simulation. Then, columns containing those initial geometrical imperfections are compressed up to failure, by means of A baqus shell finite element analyses (SFEA), making it possible to acquire in-depth knowledge on the behaviour of lipped channel columns undergoing LDG interaction and gather considerable failure load data. Finally, the last part of the paper is devoted to the DSM prediction of those failure loads and uses the obtained “data bank” to assess whether the available design approaches are able to handle adequately the ultimate strength erosion caused by the triple interaction phenomenon under investigation – if this is not the case, new design curves must be developed.

[1]  Rolf Zimmermann,et al.  Geometric imperfections and lower-bound methods used to calculate knock-down factors for axially compressed composite cylindrical shells , 2014 .

[2]  Ehab Ellobody,et al.  Behavior of Cold-Formed Steel Plain Angle Columns , 2005 .

[3]  Noorfaizal Yidris,et al.  The failure of thin-walled lipped channel compression members due to coupled local-distortional interactions and material yielding , 2012 .

[4]  Chiara Bisagni,et al.  Perturbation-based imperfection analysis for composite cylindrical shells buckling in compression , 2013 .

[5]  Dinar Camotim,et al.  On the relevance of local-distortional interaction effects in the behaviour and design of cold-formed steel columns , 2015 .

[6]  Dinar Camotim,et al.  Cold-formed steel columns undergoing local-distortional coupling , 2015 .

[7]  Benjamin W. Schafer,et al.  Local, Distortional, and Euler Buckling of Thin-Walled Columns , 2002 .

[8]  Raffaele Casciaro,et al.  Imperfection sensitivity due to coupled local instability: a non‐convex QP solution algorithm , 2006 .

[9]  Viorel Ungureanu,et al.  Effect of imperfections on numerical simulation of instability behaviour of cold-formed steel members , 2002 .

[10]  Dinar Camotim,et al.  Cold-Formed Steel Lipped Channel Columns Influenced by Local-Distortional Interaction: Strength and DSM Design , 2013 .

[11]  Dan Dubina The ECBL approach for interactive buckling of thin-walled steel members , 2001 .

[12]  Ginevra Salerno,et al.  Extrapolation locking and its sanitization in Koiter's asymptotic analysis , 1999 .

[13]  Dinar Camotim,et al.  LOCAL / DISTORTIONAL / GLOBAL MODE COUPLING IN FIXED LIPPED CHANNEL COLUMNS: BEHAVIOUR AND STRENGTH , 2011 .

[14]  Raffaele Zinno,et al.  A mixed isostatic 24 dof element for static and buckling analysis of laminated folded plates , 2014 .

[15]  Dinar Camotim,et al.  FEM-based analysis of the local-plate/distortional mode interaction in cold-formed steel lipped channel columns , 2007 .

[16]  Dinar Camotim,et al.  LOCAL/DISTORTIONAL/GLOBAL MODE INTERACTION IN SIMPLY SUPPORTED COLD-FORMED STEEL LIPPED CHANNEL COLUMNS , 2011 .

[17]  Ginevra Salerno,et al.  MODE JUMPING AND ATTRACTIVE PATHS IN MULTIMODE ELASTIC BUCKLING , 1997 .

[18]  Viorel Ungureanu,et al.  Recent research advances on ECBL approach.: Part I: Plastic–elastic interactive buckling of cold-formed steel sections , 2004 .

[19]  Gregory J. Hancock,et al.  Experimental Study of High-Strength Cold-Formed Stiffened-Web C-Sections in Compression , 2011 .

[20]  Benjamin W. Schafer,et al.  REVIEW: THE DIRECT STRENGTH METHOD OF COLD-FORMED STEEL MEMBER DESIGN , 2008 .

[21]  Stefano de Miranda,et al.  A Mixed 4-Node 3D Plate Element Based on Self-Equilibrated Isostatic Stresses , 2015 .

[22]  Eduardo de Miranda Batista Local–global buckling interaction procedures for the design of cold-formed columns: Effective width and direct method integrated approach , 2009 .

[23]  Antonio Bilotta,et al.  Direct Evaluation of the Post-Buckling Behavior of Slender Structures Through a Numerical Asymptotic Formulation , 2014 .

[24]  Raffaele Zinno,et al.  Imperfection sensitivity analysis of laminated folded plates , 2015 .

[25]  Young Bong Kwon,et al.  Compression tests of high strength cold-formed steel channels with buckling interaction , 2009 .

[26]  W. T. Koiter THE STABILITY OF ELASTIC EQUILIBRIUM , 1970 .

[27]  Dinar Camotim,et al.  Local–distortional–global interaction in lipped channel columns: Experimental results, numerical simulations and design considerations , 2012 .

[28]  Giuseppina Uva,et al.  Ho's theorem in global–local mode interaction of pin-jointed bar structures , 2006 .

[29]  Dinar Camotim,et al.  Experimental investigation concerning lipped channel columns undergoing local–distortional–global buckling mode interaction , 2012 .

[30]  Dinar Camotim,et al.  GBTUL- a Code for the Buckling Analysis of Cold-formed Steel Members , 2008 .

[31]  Jean-Pierre Jaspart,et al.  Combined Distortional and Overall Flexural-Torsional Buckling of Cold-Formed Stainless Steel Sections: Experimental Investigations , 2010 .

[32]  Richard Degenhardt,et al.  Numerical characterization of imperfection sensitive composite structures , 2014 .

[33]  Viorel Ungureanu,et al.  Evaluation of the erosion of critical buckling load of cold-formed steel members in compression based on Koiter asymptotic analysis , 2016 .

[34]  Dinar Camotim,et al.  Post-buckling behaviour and direct strength design of lipped channel columns experiencing local/distortional interaction , 2012 .

[35]  Raffaele Casciaro Computational asymptotic post-buckling analysis of slender elastic structures , 2005 .

[36]  Dinar Camotim,et al.  Post-buckling behaviour and strength of cold-formed steel lipped channel columns experiencing distortional/global interaction , 2011 .

[37]  Viorel Ungureanu,et al.  Instability mode interaction: From Van Der Neut model to ECBL approach , 2014 .