Investigation of corrosive and mechanical behaviour of Ni-P doped coating by utilizing electroless method

Kumar, Rajesh; Singh, Pawandeep; Saha, Suman; Mishra, Surendra Kumar; Kumar, Pankaj; Gobinath, R.

doi:10.1016/j.matlet.2023.134826

Cited by 5 publications

(2 citation statements)

References 10 publications

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“…Hexavalent chromium ions produced by the degradation of chromium plating is one of the conventional plating methods that poses the greatest risks to the environment and human health, − and investigation of a plating method with superior performance to replace it is urgently needed. Common coating types include Ni–P, Ni–W, Ni–B, Ni–Co, Ni–Fe, and other nickel-based alloys with several elements. , Among them, chemically plated Ni–P composites are extensively utilized in the mechanical, chemical, and electronic fields due to their resistance to wear and corrosion. However, in recent years, because of the high efficiency and economic characteristics of electrodeposition technology, more and more researchers have paid attention to it.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment

Chen,

Xu,

et al. 2024

Langmuir

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This study describes the preparation of Ni−P− Cr 3 C 2 composite coatings using pulsed electrodeposition, with varying Cr 3 C 2 concentrations (0, 1, 2, 3, 4, and 5 g/L). Subsequently, the Ni−P−Cr 3 C 2 composite coatings are heattreated at different temperatures (200, 400, and 600 °C) using the characteristic of Cr 3 C 2 oxidizing to Cr 2 O 3 at high temperatures. The Ni−P coatings, Ni−P−Cr 3 C 2 composite coatings, and heattreated-state Ni−P−Cr 3 C 2 composite coatings are compared and discussed. The results show that the hardness, wear resistance, and corrosion resistance of the composite coatings are optimized when the Cr 3 C 2 content is 3 g/L and the heat-treatment temperature is 400 °C. This is due to the presence of oxides such as Cr 2 O 3 on the surface of the composite coatings after heat treatment at 400 °C. By efficiently enhancing the coating's densification to the substrate, these oxides raise the composite coating's resistance to corrosion and wear. The Ni−P−Cr 3 C 2 composite coating in its heat-treated makeup at 400 °C is found to have long-term corrosion resistance in the 3.5 wt % NaCl solution immersion test. This study provides a new idea in the field of corrosion.

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Section: Introductionmentioning

confidence: 99%

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment

Chen,

Xu,

et al. 2024

Langmuir

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“…Based on the application, the weight percentage of P is varied; decorative purpose coatings contain 4–7% of P, industrial purpose coatings contain 6–9% of P, and electronic applications contain 4–10% of P. High phosphorus coatings contain a phosphorus weight percentage greater than 10.5% and offer higher resistance to corrosion. These types of coatings are used in highly corrosive acidic environments, such as oil drilling and coal mining [ 8 , 9 , 10 , 11 , 12 , 13 ].…”

Section: Introductionmentioning

confidence: 99%

Advancements in Nickel-Phosphate/Boron Based Electroless Composite Coatings: A Comprehensive Review of Mechanical Properties and Recent Developments

Chintada,

Gurugubelli,

Tamtam

et al. 2023

Materials

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Nickel-Phosphate/Boron (Ni-P/B) electroless coatings have been widely used to improve physical and mechanical properties in various industrial applications, including the automotive, aerospace, chemical processing, food, oil and gas, electronic, textile, and printing industries. Electroless nickel coatings are one of the most popular surface-coating methods due to their low cost and short processing time. The purpose of this review is to look at several coating materials and the existing processes for making electroless coatings on different materials. The improvement of Ni-P/B composite coatings by the incorporation of secondary particles into an alloy matrix at the macro, micro, and nano levels is explained in detail. Process parameters like type of surfactant, annealing temperature, size of the reinforcement material, and reducing-agent percentage on mechanical characteristics like hardness, high-temperature oxidation behaviour, friction, coefficient, wear, and corrosion have been broadly researched and illustrated clearly.

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Influence of Chemical and Phase Composition of Ni–P-Based Alloy Powders on the Corrosion Behavior in Various Environments

Vasić,

Pizúrová,

Žák

et al. 2024

Metall Mater Trans A

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Investigation of corrosive and mechanical behaviour of Ni-P doped coating by utilizing electroless method

Cited by 5 publications

References 10 publications

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment

Advancements in Nickel-Phosphate/Boron Based Electroless Composite Coatings: A Comprehensive Review of Mechanical Properties and Recent Developments

Influence of Chemical and Phase Composition of Ni–P-Based Alloy Powders on the Corrosion Behavior in Various Environments

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Investigation of corrosive and mechanical behaviour of Ni-P doped coating by utilizing electroless method

Cited by 5 publications

References 10 publications

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr3C2 and Heat Treatment

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr3C2 and Heat Treatment

Advancements in Nickel-Phosphate/Boron Based Electroless Composite Coatings: A Comprehensive Review of Mechanical Properties and Recent Developments

Influence of Chemical and Phase Composition of Ni–P-Based Alloy Powders on the Corrosion Behavior in Various Environments

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Product

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Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment

Enhancement of Corrosion and Wear Resistance of Ni–P Coatings Stems from the Synergistic Effects of Cr₃C₂ and Heat Treatment