2020
DOI: 10.1088/2631-7990/ab7332
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Surface modification and functionalization by electrical discharge coating: a comprehensive review

Abstract: Hard coatings are extensively required in industry for protecting mechanical/structural parts that withstand extremely high temperature, stress, chemical corrosion, and other hostile environments. Electrical discharge coating (EDC) is an emerging surface modification technology to produce such hard coatings by using electrical discharges to coat a layer of material on workpiece surface to modify and enhance the surface characteristics or create new surface functions. This paper presents a comprehensive overvie… Show more

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Cited by 66 publications
(32 citation statements)
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“…Modified layer after alloying having over lapped layer with alloying elements in carbon contains minimal thermal distortion that reduces crack propagation, porosity and decarburizing depth based on process parameters and thermal stability of powders that avoids direct contact and expands plasma channel grades in overlapping of surfaces. 17 Nickel as alloying element having conductivity of 1.43 × 10 7 (S/m) and resistivity of about 5.90 ×10 −8 (Ω•m) dispersed in the dielectric limits crack propagation and amalgamated of non-solidified/deposited carbon boundary with other elements on the surface are detailed in Figure 2(a). The mechanism of deposition through electric discharge process while adding nickel as element deposition rate increases by voltage reduction and duty factors decides surface roughness to facilitate amplifying amalgamated alloying elements.…”
Section: Resultsmentioning
confidence: 99%
“…Modified layer after alloying having over lapped layer with alloying elements in carbon contains minimal thermal distortion that reduces crack propagation, porosity and decarburizing depth based on process parameters and thermal stability of powders that avoids direct contact and expands plasma channel grades in overlapping of surfaces. 17 Nickel as alloying element having conductivity of 1.43 × 10 7 (S/m) and resistivity of about 5.90 ×10 −8 (Ω•m) dispersed in the dielectric limits crack propagation and amalgamated of non-solidified/deposited carbon boundary with other elements on the surface are detailed in Figure 2(a). The mechanism of deposition through electric discharge process while adding nickel as element deposition rate increases by voltage reduction and duty factors decides surface roughness to facilitate amplifying amalgamated alloying elements.…”
Section: Resultsmentioning
confidence: 99%
“…EDC can also be achieved by mixing suitable powder in the di-electric fluid [10]. When spark is created between the tool and work-piece, reaction occurs amidst powder and carbon obtained due to decomposition of di-electric.…”
Section: Powder-mixing Methodsmentioning
confidence: 99%
“…The electrical discharge coating is used for producing hard and wear resistant coatings in different industries [10]. This method offers several benefits over other coating methods.…”
Section: Advantages and Limitations Of Edcmentioning
confidence: 99%
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“…The main application of coating of the surface is to provide the protection from environmental deterioration, provide smooth surface with different properties like low coe cient of friction and high hardness etc [11] [12]. One of the applications of electro discharge coating used to increase tool-life of any cutting tool by decreasing the coe cient of friction and by increasing the hardness after coating with the help of EDC.…”
Section: Introductionmentioning
confidence: 99%