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Evaluation of hydrogen diffusion and trapping in ferritic steels containing (Ti,Cr)C particles using electrochemical permeation and thermal desorption spectroscopy

Published 21 Jul 2025 in cond-mat.mtrl-sci | (2507.15711v1)

Abstract: Hydrogen diffusion and trapping in ferritic steels containing (Ti,Cr)C particles was investigated using electrochemical permeation (EP) and thermal desorption spectroscopy (TDS). The trapping parameters for the test materials were evaluated by fitting the measurements with a finite element model based on the McNabb-Foster equations using least-squares optimisation. The measurements showed that hydrogen diffusion in ferrite is slowed significantly by the presence of fine (<5 nm) (Ti,Cr)C particles; coarser particles had little or no effect. The TDS measurements were consistent with hydrogen traps with a high energy barrier. The uniqueness of the hydrogen trapping parameters obtained using the fitting procedure was evaluated. It was found that the system was overdetermined; the measurements could be fitted with multiple combinations of trapping parameters. Consequently, it was not possible to determine the individual trapping parameters using this procedure. Trapping parameters were also evaluated from TDS measurements by applying Kissinger's equation. Using this procedure a trap binding energy of 0.24 eV was calculated for all materials, albeit with a high degree of uncertainty.

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