Micro-electro-discharge machining as microsensor fabrication technology

Meeusen, Wim; Clijnen, Joeri; Reynaerts, Dominiek; Brussel, Hendrik Van; Puers, Robert

doi:10.1109/jsen.2003.818459

Cited by 12 publications

(7 citation statements)

References 11 publications

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“…For the spider-spring, we focus on two different manufacturing techniques (Electro Discharge Machining [14,15] -EDM -and SU8 lithography [16,17]) implying two different materials. The EDM milling procedure was chosen as it was one of the few mechanical manufacturing possibilities to realize the interior cuttings.…”

Section: Valve Manufacturingmentioning

confidence: 99%

Fluid flow modelling of a micro-valve

Smal

Raucent

Jeanmart

2009

Int. J. Simul. Multidisci. Des. Optim.

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Section: Valve Manufacturingmentioning

confidence: 99%

Fluid flow modelling of a micro-valve

Smal

Raucent

Jeanmart

2009

Int. J. Simul. Multidisci. Des. Optim.

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“…The more recent trends have shown that the drive has gone beyond the earlier challenge of precision and minuteness in dimension to a new level where components of the same precision and invisible dimensions are demanded to be machined on tough materials with lower cost. Semiconductor processing technologies such as photolithography on a silicon substrate are used for fabricating MEMS components (5,6). The material properties of silicon often do not meet the requirement of recent applications of these microparts because they require high-quality structure and capability to withstand high strength.…”

Section: Introductionmentioning

confidence: 99%

Microelectrochemical Deposition

Habib¹

2014

Comprehensive Materials Processing

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“…Micro metallic machine components have important applications in the watch-making industry [2], instrumentation and medical devices [3] and the related fabrication technology has been widely studied. Micro-electro-discharge machining (micro EDM) is one of the fabrication techniques in which different types of miniature components are fabricated [4,5]. EDM is limited to the fabrication of conductive materials.…”

Section: Introductionmentioning

confidence: 99%

Net shape fabrication of stainless-steel micro machine components from metallic powder

Imbaby

Jiang

Chang

2008

J. Micromech. Microeng.

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A fabrication process of the net shape 316-L stainless-steel micro machine components is reported. The fabrication process combines softlithography and powder metallurgy to produce microcomponents of complex geometries of high quality. The process starts with softlithography by producing ultra thick SU-8 master moulds and their negative replicas of polydimethylsiloxane (PDMS). Then stainless-steel slurry is prepared by mixing super fine 316-L steel powder and binder to fill the PDMS moulds. The two binders used in the experiments were Duramax D-3005 and a mixture of B1000 and B1007. The PDMS micro moulds are filled with the metallic slurries and green parts are obtained from de-moulding, before going through de-binding and sintering in forming gas atmosphere. The fabrication steps were repeatedly tested. The resultant micro parts show high quality shape retention which is attributed to the quality of the SU-8 master moulds. The hardness property of the sintered microcomponents was tested with a micro indenter and a 200 g load was applied. The Vickers hardness of the sintered components was found to be about 255, which was higher than 225 of annealed 316L stainless steel and the two binders make little difference on the hardness of the sintered samples.

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Micro-electro-discharge machining as microsensor fabrication technology

Cited by 12 publications

References 11 publications

Fluid flow modelling of a micro-valve

Fluid flow modelling of a micro-valve

Microelectrochemical Deposition

Net shape fabrication of stainless-steel micro machine components from metallic powder

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