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Indexed by:期刊论文

Date of Publication:2021-03-05

Journal:OCEAN ENGINEERING

Volume:218

ISSN No.:0029-8018

Key Words:Marine structural steel; Generalized hysteretic model; Pitting corrosion; Cyclic loading; Strain hardening rule

Abstract:To describe the effect of the coupled damage caused by corrosion and low-fatigue hysteresis on the mechanical performance of marine steel, a generalized hysteretic constitutive model is developed based on the results of a reversed cyclic test that was conducted previously on the commonly used D36 steel considering different corrosion scenarios and loading schemes. Three typical hardening models, namely the NLISO isotropic model, Chaboche kinematic model, and combined hardening model in ABAQUS (R) are first studied using the parameters calibrated with the test data. The combined model is found to be capable of performing desirable simulations for all pitting corrosion cases. However, it is difficult to explicitly clarify the relation between its parameters and the volume loss ratio (VLR), which is not applicable for general purposes. The developed hysteretic model consists of a cyclic hardening skeleton segment, an unloading segment, and a reloading segment. A direct link is established between its parameters and VLR via regressive analysis. This generalized model can comprehensively account for, with desirable prediction accuracy, the influence of pitting-induced volume loss, stress concentration, and eccentricity on the hysteretic behaviour of marine steel. It can be applied to engineering practice with rational conservation.