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Effects of Rare Earth (Ce and La) on Steel Corrosion Behaviors under Wet-Dry Cycle Immersion Conditions

Xintong Lian, Jianan Zhu, Ruiqian Wang, Tengshi Liu, Xu Jing, Dexiang Xu, Dong Han

2020Metals32 citationsDOIOpen Access PDF

Abstract

Rare earth (RE) elements are beneficial to improving corrosion properties in low-carbon and low-alloy steels. In this paper, corrosion performance of Q235B steel and Q355B steel samples after RE alloying under wet-dry cycle immersion conditions were analyzed. Experimental results show that corrosion rate was significantly decreased. It was probably due to the grain refinement by RE alloying, which increased the density of protective rust layers and improved corrosion resistance. The formation of small-sized spherical RE inclusions also inhibited the precipitation of MnS and weakened micro galvanic corrosion. Additionally, RE atoms tended to segregate towards grain boundaries and a RE concentration region is formed between rust layers and matrix to impede the access from contacting corrosive ions. A corrosion resistance schematic of RE atom segregation was proposed based on microstructure morphology and element distribution results.

Topics & Concepts

Materials scienceCorrosionMetallurgyImmersion (mathematics)MicrostructureGrain boundaryAlloyRare earthGalvanic corrosionPrecipitationIntergranular corrosionGrain sizePure mathematicsPhysicsMeteorologyMathematicsMetallurgical Processes and ThermodynamicsHydrogen embrittlement and corrosion behaviors in metalsCorrosion Behavior and Inhibition
Effects of Rare Earth (Ce and La) on Steel Corrosion Behaviors under Wet-Dry Cycle Immersion Conditions | Litcius