Journal
STRUCTURES
Volume 56, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.istruc.2023.104944
Keywords
Mechanical properties; Pre-fatigue loading; Pre-fatigue damage; Q345 structural steel; Fracture mechanism
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This study examines the residual mechanical properties of Q345 structural steel that has been previously damaged by pre-fatigue loading. The steel samples are subjected to various loading cycles, causing fatigue damage without fracture, and then tested for their stress-strain curves and associated parameters. The results show that pre-fatigue loading has a significant effect on the fracture positions, morphological features, residual strength, and ductility of Q345 steel. The residual ductility reduced significantly after cyclic loading, while the impact on the elastic modulus was negligible.
This study investigates the residual mechanical properties of Q345 structural steel previously damaged by prefatigue loading. Fatigue damage is induced by subjecting Q345 structural specimens to various loading cycles without causing fracture under three pre-fatigue loading stress levels, which is referred to herein as pre-fatigue damage. Subsequently, tensile tests are performed on these specimens to obtain the stress-strain curves and associated parameters, including yield strength, ultimate strength, elastic modulus, and ductility. Based on the test results, the effect of pre-fatigue loading on the mechanical properties of Q345 structural steel is comprehensively discussed and analyzed. Significant differences are observed in the fracture positions and morphological features of the Q345 steel structure after pre-fatigue loading. Additionally, pre-fatigue loading significantly affects the residual strength and ductility of Q345 structural steel. In particular, the residual ductility of Q345 structural steel reduced significantly after being subjected to different cyclic loadings. However, the effect of pre-fatigue loading on the elastic modulus of Q345 structural steel is almost negligible.
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