ASD and LRFD lateral load combinations: Comparison of required strength and reliability for design of structural steel.

ASCE 7, Minimum Design Loads for Buildings and Other Structures, provides load combinations for both Load and Resistance Factor Design (LRFD) and for Allowable Stress Design (ASD), defining the required strength of structural members and connections. Similarly, the AISC Specification for Structural Steel Buildings provides resistance factors for LRFD and safety factors for ASD to be applied to the nominal strength for each limit state, permitting design using either method in conjunction with the corresponding load combinations in ASCE 7. Previous publications have demonstrated that similar designs (with similar levels of reliability) result from the application of LRFD and ASD for cases in which the governing load combination has live load as the principal load. This study presents comparison of ASD and LRFD demands, and corresponding reliability indices, from ASCE 7 lateral load combinations, determined with different proportions of dead, live, wind, and seismic load effects and a range of levels of second-order effects. The findings indicate that the generally accepted uniformity between the two design methods established for gravity load combinations does not always extend to lateral load combinations. For a range of conditions, design using ASD load combinations provides significantly lower reliability than using LRFD and does not meet the ASCE 7 reliability target. • ASD and LRFD design methods can result in significant differences in required strength for lateral-load combinations. • Differences in required strength are influenced by load ratios and second-order effects. • Differences in required strength result in significant differences in reliability for wind loading. • LRFD provides more consistent reliability across a range of conditions than ASD, with reliability near the target. • ASD results in a wide range of reliability, including both the greatest overdesign and the greatest underdesign with respect to target reliability. [ABSTRACT FROM AUTHOR]