Jet electrodeposition multilayer nickel on the surface of sintered NdFeB and corrosion behaviours

Shen, Lida; Wang, Yihao; Jiang, Wei; Liu, Xia; Wang, Chuan; Tian, Zongjun

doi:10.1080/1478422x.2016.1278512

Cited by 27 publications

(4 citation statements)

References 18 publications

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“…In addition to alloys, lamellae coatings can be fabricated by jet electrodeposition by alternating the parameters [168], or the electrolyte composition interacting with the surface at a given time. For example Shen et al [169] created Cu-Ni multilayer coatings by jet electrodeposition using two opposed nozzles drawing from discrete electrolyte tanks using a rotating workpiece (Fig.…”

Section: Electrodepositionalloys and Additivesmentioning

confidence: 99%

Electrochemical jet manufacturing technology: From fundamentals to application

Speidel¹,

Bisterov²,

Saxena³

et al. 2022

International Journal of Machine Tools and Manufacture

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Section: Electrodepositionalloys and Additivesmentioning

confidence: 99%

Electrochemical jet manufacturing technology: From fundamentals to application

Speidel¹,

Bisterov²,

Saxena³

et al. 2022

International Journal of Machine Tools and Manufacture

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“…On the one hand, this is caused by the current density being too high and the deposition rate being too fast. On the other hand, nickel ions in the vicinity of the cathode are rapidly consumed, and a serious shortage of nickel ions causes hydrogen ions in the solution to be reduced, thereby increasing plating defects [27].…”

Section: Surface Morphologiesmentioning

confidence: 99%

Properties of Jet electrodeposition Nickel Coating on TC4 Alloy Prepared by Selective Laser Melting

Wang¹,

Astronautics²

2019

International Journal of Electrochemical Science

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In order to solve the problems of poor surface wear resistance and low hardness of titanium alloy materials formed by selective laser melting (SLM) technology, a new method of preparing bright nickel protective coating by jet electrodeposition was proposed in this paper. The surface morphology of the coatings was characterized by field emission scanning electron microscopy. The microhardness tester, scratch tester, and friction and wear tester were used to analyze the adhesion, hardness, and wear resistance of the coatings. The results indicated that the current density has an important effect on the properties of the coatings; as the current density increases, the surface flatness gradually increases and then decreases. When the current density is 120 A/dm 2 , the microhardness of the coatings reaches 548 HV, and the adhesion strength also reaches 30.4 N. Compared with the surface of titanium alloy, the surface of the coating has better wear resistance, and the surface is more complete after friction and wear test. The wear mechanism is transformed from microscopic grinding to smearing.

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“…[12][13][14] Metal coatings, such as Ni, [15][16][17][18] Ni-P, 19,20 Ni-Cu, 21,22 Zn, [23][24][25][26] are the most popular choices in the industry. So far, aqueous electroplating is still the most widely used method of metal coating deposition, [27][28][29][30] although physical vapor deposition, [31][32][33] chemical vapor deposition, 4 thermal spraying, 34 and other technologies have also developed. Unfortunately, NdFeB is prone to corrosion during the aqueous electroplating process due to exposure to the electrolytic bath solution.…”

Section: Introductionmentioning

confidence: 99%