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Impact of Size and Distribution of k-Carbides on the Hydrogen Embrittlement and Trapping Behaviors of a Fe-Mn-Al-C Low-Density Steel

Yinchen Xiong, Xiaofei Guo, Han Dong

2024Materials9 citationsDOIOpen Access PDF

Abstract

This study compares the hydrogen embrittlement susceptibility of a Fe-30Mn-8Al-1.2C austenitic low-density steel aged at 600 °C for 0 (RX), 1 min (A1) and 60 min (A60), each exhibiting varying sizes and distributions of nano-sized κ-carbides. Slow strain rate tests were conducted to assess hydrogen embrittlement susceptibility, while thermal desorption analysis was applied to investigate hydrogen trapping behaviors. Fracture surface analysis was employed to discuss the associated failure mechanisms. The results suggest that nano-sized κ-carbides with sizes ranging from 2-4 nm play a crucial role in mitigating hydrogen embrittlement, contrasting with the exacerbating effect of coarse grain boundary κ-carbides. This highlights the significance of controlling the sizes and morphology of precipitates in designing hydrogen-resistant materials.

Topics & Concepts

Hydrogen embrittlementMaterials scienceCarbideEmbrittlementHydrogenMetallurgyAusteniteGrain boundaryMicrostructureCorrosionChemistryOrganic chemistryHydrogen embrittlement and corrosion behaviors in metalsMicrostructure and Mechanical Properties of SteelsMaterial Properties and Failure Mechanisms
Impact of Size and Distribution of k-Carbides on the Hydrogen Embrittlement and Trapping Behaviors of a Fe-Mn-Al-C Low-Density Steel | Litcius