Effect of substrate’s surface roughness on corrosion and wear rate of Ni-GO nanocomposite coating

Yussoff, Noor Syahadah; Nik Roseley, Nik Roselina; Saad, N. H.; Bushroa, A. R.; Katiyar, J. K.

doi:10.15282/jmes.18.1.2024.8.0783

J. Mech. Eng. Sci.

2024

DOI: 10.15282/jmes.18.1.2024.8.0783

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Effect of substrate’s surface roughness on corrosion and wear rate of Ni-GO nanocomposite coating

Noor Syahadah Yussoff,

Nik Roselina Nik Roseley,

N. H. Saad

et al.

Abstract: Corrosion is a natural process that occurs when refined metal is converted into a more stable form, such as oxide, hydroxide, or sulfide. Wear is the failure of a surface due to dynamic contact between two surfaces. In offshore operations and environments, corrosion and wear are major problems due to the presence of corrosive and abrasive elements. The coating is a common surface protection method that enhances corrosion resistance and prolongs lifespan. In this work, a Ni-Graphene nanocomposite coating was fa… Show more

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Cited by 2 publications

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Physico-tribocorrosion performance of epoxy/MoS2 nanocomposite coating

Ravi,

Katiyar,

Shravan Kumar

2025

Materials Today Communications

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Physico-tribocorrosion performance of epoxy/MoS2 nanocomposite coating

Ravi,

Katiyar,

Shravan Kumar

2025

Materials Today Communications

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Characterization of microstructural evolution and mechanical properties of Cu-Ni-Cr alloys deformed by ECAP

Wongvaranon,

Rojananan,

Thipprakmas

2024

Proceedings of the Institution of Mechanical Engineers, Part E:

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In recent years, Cu-Ni-Cr alloy materials have been broadly applied in the marine industry. However, owing to its dendritic microstructure, this material is an obstacle to the manufacturing process, particularly in the metal-forming process. In this study, an equal-channel angular pressure (ECAP) process is proposed to improve the material microstructure and mechanical properties. A single pass of the ECAP was performed at room temperature, and the microstructural evolution and mechanical properties of the material were characterized. The ECAP compressed and tensioned the microstructures on the top and bottom surfaces, respectively. The microstructures on the front and back surfaces were similar because they were sheared. This also caused a tear-off of the dendritic microstructure. Based on the changes in the characterization of the microstructural evolution, the ultimate tensile strength increased by 32% to approximately 680 MPa, and the elongation decreased by 200% to approximately 8%. The microhardness distribution was irregular on the front and back surfaces, causing nonuniform deformation. However, the microhardness increased by an average of 35% to approximately 270 HV. Consequently, the nonuniform microstructural evolutions and mechanical properties of each surface must be considered when applying the ECAP process to improve the mechanical properties of Cu-Ni-Cr alloy materials.

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Effect of substrate’s surface roughness on corrosion and wear rate of Ni-GO nanocomposite coating

Cited by 2 publications

References 24 publications

Physico-tribocorrosion performance of epoxy/MoS2 nanocomposite coating

Physico-tribocorrosion performance of epoxy/MoS2 nanocomposite coating

Characterization of microstructural evolution and mechanical properties of Cu-Ni-Cr alloys deformed by ECAP

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