Selected problems met in abrasive electrochemical machining process

Ruszaj, Adam; Skoczypiec, Sebastian

doi:10.17814/mechanik.2015.2.20

Cited by 2 publications

(2 citation statements)

References 4 publications

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“…Furthermore, to address the limitations inherent in conventional electrochemical machining technology, researchers have explored the viability of composite electrochemical machining technology. Examples include magnetic electrochemical finishing [30,31], ultrasonically assisted electrochemical machining [32], and laser and electrochemical machining [33]. However, the composite electrochemical machining technology used for the preparation of microstructures with high efficiency, precision, and quality still needs to be explored.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Microstructure Arrays via Localized Electrochemical Deposition

Wang,

Xu,

Ren

et al. 2024

Nanomanuf Metrol

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Localized electrochemical deposition microadditive manufacturing (AM) (LECD-µAM) technology represents a nontraditional manufacturing method applied for the layer-by-layer fabrication of metal microstructures via a fully automatic feedback mechanism. In terms of material utilization and complex structure formation, the proposed technology exhibits great potential for microstructure fabrication. The LECD-µAM technology introduced in this study involves the reduction of metal cations in the electrolyte to form metal microstructures. This study showed the flow simulation of an electrolyte in the cantilever probe and pressure distribution at the probe tip. In addition, the effect of extrusion pressure on the deposition structure was investigated experimentally. Combined with the experimental results, we discussed the effects of LECD-µAM technology on deposition outcomes and optimized parameters and designed a printing route for the deposition of complex metal microstructure arrays with smooth surfaces. The proposed technology attained a deposition rate and a microstructural copper content of 0.961 µm/s and 99.5%. In addition, LECD-µAM technology can be performed at room temperature, has low environmental requirements and cost, provides a good deposition surface, and holds great potential for the manufacture of three-dimensional and other complex microstructure arrays.

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Section: Introductionmentioning

confidence: 99%

Fabrication of Microstructure Arrays via Localized Electrochemical Deposition

Wang,

Xu,

Ren

et al. 2024

Nanomanuf Metrol

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“…Despite considerable interest in electrochemical machining [6][7][8][9][10][11][12][13][14], the cited papers do not mention the accuracy of surface understating with a tolerance of several microns. This paper uses a convective mass and heat transfer model to analyze the accuracy of making surface understating by electroetching, whereby the electrolyte is pumped through the interelectrode gap (IEG).…”

Section: Introductionmentioning

confidence: 99%

Micro-ECM of the Aerodynamic Surface Understating

Morgunov

Petukhov

Саушкин

2021

SSP

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This paper demonstrates that 18 μm deep surface understating with a tolerance of 4.5 μm and a roughness Ra=0.4 μm can be produced to the required accuracy by electrochemical die-sinking if configured appropriately.Theoretical analysis shows that the bottom profile error can be presented as a superposition of the errors of surface alignment (non-parallel bottom) and shape (non-flat bottom). In this case, the alignment error accounts for a greater part of the size tolerance (3 μm out of 4.5 μm). This is why the attainment of desired accuracy revolves around the development, analysis, and assessment of ways to reduce this error.

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Selected problems met in abrasive electrochemical machining process

Cited by 2 publications

References 4 publications

Fabrication of Microstructure Arrays via Localized Electrochemical Deposition

Fabrication of Microstructure Arrays via Localized Electrochemical Deposition

Micro-ECM of the Aerodynamic Surface Understating

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