Effects of plasma electrolytic polishing on SLM printed microfluidic platform
Creators
- 1. University of Ljubljana, Faculty of Mechanical Engineering
- 2. Technical University Bergakademie Freiberg
Description
Additive manufacturing (AM) of metallic parts is gaining momentum in production industries. In view of producing a metal
microproduct using AM the issue of high surface roughness is prominent. Plasma electrolytic Polishing (PeP) is a post
processing technology that greatly reduces surface roughness of metallic parts. In this paper the effects of PeP of microfluidic
platform, printed with selective laser melting (SLM) technology, is presented. The results show that surface roughness of the
specimens was severely reduced. Also, some geometrical defects inherent to SLM technology were partly removed. It is shown,
that for smaller geometrical microfeatures (sizes of less than 0.5 mm) the effectiveness of PeP is reduced. Through this
investigation it can be concluded that PeP is a promising post-processing technology for SLM printed microparts since it
significantly improves the overall part quality. However, further improvements of the process chain need to be implemented
in order to render the microfluidic platform functional.
Files
ATM-2022-1-004.pdf
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(536.8 kB)
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