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Low-cycle fatigue behavior and microstructure evolution of ODS steel pipes at high temperatures

Yuntao Zhong, Yongduo Sun, Yufeng Du, Zhenyu Zhao, Chen Yong, Huan Sheng Lai, Ruiqian Zhang

2024Journal of Materials Research and Technology12 citationsDOIOpen Access PDF

Abstract

Oxide-dispersion-strengthened (ODS) steels are candidate materials for application in advanced nuclear reactors. In this study, the low-cycle fatigue performances of 13Cr-ODS ferritic steel pipes were investigated at 600, 700, and 800 °C. Cyclic softening was observed at high strain amplitudes with an increase in the number of fatigue cycles. However, cyclic hardening appeared first, and then cyclic softening occurred at a low strain amplitude with the increase in the number of fatigue cycles. By comparing the cyclic stress–strain curves and the monotonic stress–strain curves, it was found that cyclic softening occurred regardless of the strain amplitude. The Coffin–Manson and Basquin equations were used to predict the fatigue of the pipes. Microstructure analysis indicated that cyclic softening was induced by the dynamic recovery and recrystallization, which reduced the number of low-angle grain boundaries in the deformed grains by promoting dislocation annihilation and reorganization. A complex multi-layer core–shell structure with a large size (∼500 nm) was observed.

Topics & Concepts

Materials scienceMicrostructureSofteningCyclic stressHardening (computing)Recrystallization (geology)MetallurgyAmplitudeLow-cycle fatigueComposite materialPlasticityLayer (electronics)BiologyPaleontologyQuantum mechanicsPhysicsFusion materials and technologiesNuclear Materials and PropertiesHydrogen embrittlement and corrosion behaviors in metals