Effects of Ni-flash coating on hydrogen evolution, ad/absorption, and permeation behaviors of advanced high-strength steel during electrogalvanizing

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Abstract

Abstract The effects of a thin Ni-flash coating on hydrogen evolution, ad/absorption, and permeation of advanced high-strength steel were examined for a deeper understanding of the hydrogen infusion behavior in the steel substrate during electrogalvanizing. The electrochemical permeation technique and impedance spectroscopy were used under cathodic polarization in a step-up manner. In addition to the electrochemical analyses, the hydrogen microprinting technique was employed to identify the distribution of Ag particles (locating hydrogen atoms) in the electrogalvanized steels with and without a thin intermediate Ni-layer. The results revealed that despite the higher hydrogen evolution rate on Ni-layer than on bare steel, the intermediate Ni-layer decreased the hydrogen infusion considerably in the steel substrate during electrogalvanizing, due primarily to the lower hydrogen ad/absorption rate on the Ni-layer, and the predominant hydrogen trapping at the multi-interfacial areas of the Zn-layer/Ni-layer/steel substrate. These results could provide insights into the precise role of a thin Ni-flash coating on the resistance to hydrogen embrittlement of ultra-high-strength steel alloys during electrogalvanizing.

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last seen: 2026-05-19T01:45:01.086888+00:00