Virtual and Physical Prototyping (Dec 2024)

Development and experimental evaluation of surface enhancement methods for laser powder directed energy deposition microchannels

  • Paul Gradl,
  • Angelo Cervone,
  • Piero Colonna

DOI
https://doi.org/10.1080/17452759.2024.2345389
Journal volume & issue
Vol. 19, no. 1

Abstract

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ABSTRACTThis research evaluates Laser Powder Directed Energy Deposition (LP-DED) for producing fine feature internal microchannels. This study is focused on enhancing and characterising the surfaces of microchannels produced using techniques such as abrasive flow machining, chemical milling, chemical mechanical polishing, electrochemical machining, and thermal energy method to modify internal surfaces of microchannels made from NASA HR-1 Fe-Ni-Cr alloy. Flow testing for discharge coefficient measurement is conducted on processed microchannel samples, followed by characterisation through optical microscopy, Scanning Electron Microscopy (SEM), and Computed Tomography. Findings reveal variations in surfaces due to powder adherence, melt pool undulations, and polishing mechanisms. The study emphasises the significance of removing material equivalent to the mean powder diameter to reduce surface roughness and impact the discharge coefficient. The research proposes a ratio for planarising roughness and waviness peak height and density, offering insights for tailored surface adjustments in specific applications requiring reduced flow resistance.HighlightsInternal microchannels with thin-walls were fabricated using the laser powder directed energy deposition process.Various surface enhancements and polishing processes were developed to modify the surface texture of the LP-DED channels.Flow testing was conducted to determine the discharge coefficient.Post-test characterisation was completed to obtain cross sectional area, perimeter, surface texture, and general surface condition to analyse results.Ratio of roughness and waviness peak and density (Spk/Spd and Wp/WPc) is proposed as a relevant surface characterisation parameter.Tailored surface modifications for specific end-use applications.

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