Release Time:2019-03-12  Hits:

Indexed by: Journal Article

Date of Publication: 2018-08-01

Journal: INTERNATIONAL JOURNAL OF STRUCTURAL STABILITY AND DYNAMICS

Included Journals: SCIE

Volume: 18

Issue: 8,SI

ISSN: 0219-4554

Key Words: Structural health monitoring; steel bridge; fatigue assessment; orthotropic deck; S-N curve; sequential law

Abstract: The fatigue assessment of orthotropic bridge decks under routine traffic loading is a significant task to ensure the serviceability and safety of steel bridges. The sequential law computes fatigue damages using whole-range S-N curves and sequential stress histories and has been proven to provide more realistic results than Miner's rule under variable amplitude loading. In this paper, a whole-range S-N curve covering the very low-cycle region, the low-cycle region, the finite life region, the high-cycle region, and the very high-cycle region is proposed for the sequential law to evaluate the fatigue performance of steel orthotropic bridge decks. The mathematical model of the whole-range S-N curve is first deduced based on the partially known S-N curve recommended in steel bridge design codes. The properties of the whole-range S-N curve are then explained from the geometrical point of view in the double logarithm coordinates system. Finally, rib-to-deck joints in steel orthotropic bridge decks are used as a case study. Fatigue test data are used to validate the proposed model. The whole-range S-N curve, with a 97.5% survival limit, is established for fatigue assessment of rib-to-deck joints in real bridges. The results show that the proposed whole-range S-N curve allows a good fit of experimental data and excellent agreement with code S-N curves in the finite life region and provides an effective extrapolation from the finite life region to the whole range of cycle numbers.