Design of laterally restrained web-tapered steel structures through a stiffness reduction method
Citation
Kucukler, M., & Gardner, L. (2018). Design of laterally restrained web-tapered steel structures through a stiffness reduction method. Journal of Constructional Steel Research, 141, 63-76. doi:10.1016/j.jcsr.2017.11.014Abstract
A stiffness reduction method for the design of laterally restrained web-tapered steel structures fabricated
through the welding of individual steel plates is presented in this paper. Stiffness reduction functions for
welded members, accounting fully for the deleterious influence of the spread of plasticity and imperfections on the structural resistance, are developed. The method is implemented through (i) dividing tapered
members into prismatic segments along their lengths, (ii) reducing the flexural stiffness of each segment
by means of the developed stiffness reduction functions considering the first-order forces and cross-section
properties of each segment, (iii) performing Geometrically Nonlinear Analysis and (iv) making cross-section
strength checks. Essentially, it is proposed to replace the current typical approach to structural design of conducting a simple elastic (with nominal stiffness) structural analysis followed by elaborate member checks
with an integrated process utilising more sophisticated second-order analysis (with stiffness reduction) but
very simple design checks. The distribution of internal forces within the structure is captured more accurately due to the allowance for imperfections, residual stresses and plasticity through stiffness reduction
and the allowance for frame and member instability effects through the use of second-order analysis. The
need for determining effective lengths and for conducting member buckling checks is also eliminated. Verification of the proposed approach against the results obtained from nonlinear shell finite element modelling
is presented for various tapering geometries, slenderness values and loading conditions. Assessment of the
proposed method against the European and North American steel design codes for tapered steel structures
is also provided.