2017
DOI: 10.1177/0954405416684155
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Experimental investigation of the governing parameters of the electrostatic field–induced electrolyte jet micro electrical discharge machining on the silicon wafer

Abstract: Electrostatic field-induced electrolyte jet micro electrical discharge machining relies on the cyclic and pulsating electrical discharge between the tip of the fine jet, and the workpiece to remove the debris. To further explore the processing characteristics, the single-pulsating discharge experiments have been carried out with the NaCl electrolyte as the jet solution and the silicon wafer as the workpiece. The experimental results have shown that the crater size after a single electrostatic field-induced ele… Show more

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Cited by 2 publications
(5 citation statements)
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“…The power supply is a high-voltage DC with a voltage range of 0-10 kV. It can generate a strong electric field, which drags the electrolyte jet from the flat-headed nozzle toward the sacrificial electrode without any pump [18]. With the electrolyte jet extending, the field intensity increases and results in the plasma breakdown.…”
Section: Construction Of Test Platformmentioning
confidence: 99%
See 3 more Smart Citations
“…The power supply is a high-voltage DC with a voltage range of 0-10 kV. It can generate a strong electric field, which drags the electrolyte jet from the flat-headed nozzle toward the sacrificial electrode without any pump [18]. With the electrolyte jet extending, the field intensity increases and results in the plasma breakdown.…”
Section: Construction Of Test Platformmentioning
confidence: 99%
“…As a consequence, the usage of the E-Jet EDM energy generating technology in conventional EDM can be realized indirectly. Because the field jet's discharge energy may potentially be regulated to a very tiny scale [18], it can circumvent the discharge energy constraint in conventional micro EDM with the relaxation pulse generator [10] and the transistor-pulse generator [11]. This technology may provide an innovative method of pulsating discharge energy to micro EDM.…”
Section: Equivalent Circuit Analysis Of the Discharge Processmentioning
confidence: 99%
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“…These processes utilise the benefits of both conventional and unconventional material-removal process to overcome the limitations of the individual machining mechanisms. In the recent years, Zhang et al 1 proposed electrostatic field-induced electrolyte jet micro-EDM for silicon wafer. In the paper, the authors produced single-discharge between the tip of a fine jet of electrolyte (NaCl) and the workpiece (Si wafer) to remove the material.…”
Section: Introductionmentioning
confidence: 99%