Effects of niobium pentoxide nanoparticles on the tribological properties of electrodeposited ZnNi coatings

Moreira, Hema C. R.; Oliveira, Jorge A. B.; Carreño, Neftalí Lênin Villarreal; Silva, Ricardo M.; Garcia, Irene Teresinha Santos; Costa, H.L.; Alano, José Henrique

doi:10.1088/2051-672x/ac4ab6

Cited by 5 publications

(3 citation statements)

References 23 publications

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“…Other authors also studied the corrosion and wear resistances of Zn-Ni-SiO 2 composite coatings (Tuaweri et al, 2014a;Tuaweri et al, 2014b). Similarity, adding other nanoparticles, such as Sm 2 O 3 , niobium pentoxide, aluminium oxide nanoparticles, on the Zn-Ni bath, also enhanced the corrosion resistance of the coatings (El Boraei and Ibrahim, 2022;Moreira et al, 2022;Kannan et al, 2023). Loading inhibitors to the nanoparticles/nanocontainers before adding them to the plating electrolytic bath have been developed by our group recently to extend further corrosion resistance of ZnNi coating system (Nguyen et al, 2020;Huong et al, 2021).…”

Section: Introductionmentioning

confidence: 92%

Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Nguyen

Thi²,

Ba³

et al. 2022

ACMM

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Purpose This study aims to enhance to corrosion protection of NiZn-plated steel by electroplating multilayer coating. Design/methodology/approach The multilayer coating consists of three layers on mild steel substrate, such as Cr3+ chromate conversion layer (CCC), electrodeposited nanosilica zinc-nickel composite layer (ZnNiSi) and electrodeposited zinc-nickel alloy layer (ZnNi). Its morphology, composition and corrosion behaviour were investigated by various methods. Findings Polarization curves indicated that polarization resistance and corrosion current density of CCC/ZnNiSi/ZnNi/Fe (6.956 kO.cm2; 2.56 µA.cm−2) were two times higher and five times lower than that of ZnNiSi/ZnNi/Fe (3.42 kO.cm2; 12.52 µA.cm−2), respectively. From electrochemical impedance spectroscopy data, charge transfer resistances were 1.344, 2.550 and 2.312 kO.cm2 for ZnNi, ZnNiSi/ZnNi and CCC/ZnNiSi/ZnNi, respectively. Salt spray test indicated that after 48 h, surface of ZnNi and ZnNiSi was covered by white rust, whereas no white rust was observed on surface of CCC/ZnNiSi/ZnNi. After 600 h, there were red rust spots (1% surface coverage) on surface of Zn-Ni, whereas only white rust was observed on both ZnNiSi/ZnNi (100% surface coverage) and CCC/ZnNiSi/ZnNi (10% surface coverage). Originality/value Multilayer coating enhanced significantly the corrosion protection for steel, as compared to the single-layer coating.

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Section: Introductionmentioning

confidence: 92%

Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Nguyen

Thi²,

Ba³

et al. 2022

ACMM

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“…In view of the new challenges that the energy transition imposes [1], the search for mobility systems with lower friction losses is often linked to individual or combined actions of (i) development and use of materials and coatings that provide lower friction [2,3]; (ii) development and use of new lubricants, for example, new additive packages and/or lower viscosity lubricants [4,5]; and (iii) changes in the topography of the surfaces in contact, aiming at operating in lubrication regimes that result in less friction [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Deterministic Simulation of Surface Textures for the Piston Ring/Cylinder Liner System in a Free Piston Linear Engine

Luz,

Profito,

dos Santos

et al. 2024

Lubricants

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The use of synthesis gas (SYNGAS) from waste gasification has been pointed out as a key strategy to help the energy transition. However, SYNGAS’ low calorific power is considered a difficult obstacle to its technological use in internal combustion engines. To overcome this, a novel free-piston linear motor has been proposed to pave the way for the use of SYNGAS in the mobility sector. Surface texturing has vast potential to reduce friction losses in this system. This study utilizes a deterministic numerical model to investigate the mixed lubrication performance of a textured piston ring/cylinder liner conjunction in a free piston engine. The model considers the simultaneous solution of the lubrication and asperity contact problems at the roughness scale, including texturing features on the cylinder surface. The numerical model employs the Reynolds equation with mass-conserving cavitation to calculate the inter-asperity fluid pressure. The rough contact model utilizes the Hertz theory for elastic contact to calculate the contact pressure at each asperity between the piston liner surface and the admitted smooth and rigid ring surface. Surface texturing demonstrated remarkable effectiveness, particularly in the hydrodynamic lubrication regime, with a maximum friction reduction of 38.5% observed for an area coverage of 50%. This was accompanied by a notable shift in the transition from the boundary to the mixed lubrication regime. The textured surfaces exhibited consistent efficiency in reducing fluid pressure and shear stress as the coverage of the textured areas increased. The incorporation of dimples on these surfaces played a crucial role by augmenting the lubricant storage capacity while concurrently reducing the real shear and contact areas. This study offers valuable insights into the nuanced friction-reducing mechanisms of surface textures, illuminating their influence on the coefficient of friction and the formation of lubricant films across various lubrication regimes.

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“…Researchers put extensive work on niobium and its composites due to their properties and applications. Niobium oxide is considered safe and has chemical inertness, and is also thermo-dynamically stable and low in cytotoxicity [6,7]. In addition, Nb 2 O 5 can be used to protect materials from UV radiation due to its ability to absorb UV light with a wavelength around 385 nm [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Nb₂O₅nano and microspheres fabricated by laser ablation

Abdulrahman¹,

Salim²,

Mahdi³

et al. 2022

Adv. Nat. Sci: Nanosci. Nanotechnol.

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This work presents a successful and novel method for the preparation of Nb2O5 nanoparticles via pulsed laser ablation in liquid (PLAL) by employing a pure Nb plate and deionised water. The effect of various laser fluences on the chemical, structural, morphological and optical characteristics was studied. Chemical characteristics confirmed the formation of the orthorhombic T-Nb2O5 structure. While the morphology characteristics showed spherical particles and its density dependency on the laser fluence. The Nb2O5 stoichiometry ranged between 42.20% and 88.86%. Additionally, the structural analysis showed peaks related to the orthorhombic T-Nb2O5 structure with grain size between 58.2 and 244.6 nm. Lastly, topographical images showed that the average particle size was in the range 6.8 and 32 nm, and sample roughness was between 17.39 and 1.377 nm.

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Effects of niobium pentoxide nanoparticles on the tribological properties of electrodeposited ZnNi coatings

Cited by 5 publications

References 23 publications

Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Deterministic Simulation of Surface Textures for the Piston Ring/Cylinder Liner System in a Free Piston Linear Engine

Nb₂O₅nano and microspheres fabricated by laser ablation

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Effects of niobium pentoxide nanoparticles on the tribological properties of electrodeposited ZnNi coatings

Cited by 5 publications

References 23 publications

Effects of nano-SiO2 and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Effects of nano-SiO2 and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Deterministic Simulation of Surface Textures for the Piston Ring/Cylinder Liner System in a Free Piston Linear Engine

Nb2O5nano and microspheres fabricated by laser ablation

Contact Info

Product

Resources

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Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Effects of nano-SiO₂ and trivalent chromium conversion on corrosion resistance of NiZn-plated steel: towards a multilayer coating for steel protection

Nb₂O₅nano and microspheres fabricated by laser ablation