Pengwei Zhou scite author profile

Pure Ni and Ni-graphene coatings fabricated by reverse pulse electrodeposition were applied to protect quenching & partitioning (QP) steel as the substrate from hydrogen embrittlement (HE). The inhibitory effects of coatings on HE in steel were assessed by slow strain rate test (SSRT) after electrochemical hydrogen charging and hydrogen permeation test using the Devanathan-Stachurski (D-S) cells. According to the results of the total elongation loss Elloss and steady state permeation current I∞ as well as the diffusion coefficient D, it is suggested that the effect of pure Ni coatings on HE in QP steel was slight, whereas Ni-graphene coatings could act as a more effective protecting coatings against HE. Finally, the mechanisms affecting the performance of coatings on HE in QP steel were also discussed.

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Behavior of Fe/nano-Si particles composite electrodeposition with a vertical electrode system in a static parallel magnetic field

Zhou

Zhong

Huai

et al. 2013

Electrochimica Acta

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Role of microstructure on electrochemical hydrogen permeation properties in advanced high strength steels

Zhou

Zhao

et al. 2018

International Journal of Hydrogen Energy

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Pengwei Zhou

Physical Explanation of Fabry–Pérot Cavity for Broadband Bilayer Metamaterials Polarization Converter

Graphene Containing Composite Coatings as a Protective Coatings against Hydrogen Embrittlement in Quenching & Partitioning High Strength Steel

Behavior of Fe/nano-Si particles composite electrodeposition with a vertical electrode system in a static parallel magnetic field

Role of microstructure on electrochemical hydrogen permeation properties in advanced high strength steels

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