Abstract:
Fabrication of complex and filigree magnesium alloy 3D-medical implants is very difficult by conventional
processes. The present work examines the feasibility of fabricating arrayed microstructures (protrusions) of
magnesium AZ31B Mg alloy in unconventional profiles. For this, Reverse-µEDM integrated with laser beam
micromachining (LBµM), as a new hybrid technology, is employed. A capacitance of 10 nF, a voltage of 110 V
and a feed rate of 10 µm/min for Reverse-µEDM led to better machining responses in terms of materials removal
rate, tool wear, and avg. surface roughness compared to other parametric settings. Considering the importance of
the biocompatibility of materials, the surface integrity of the fabricated microstructures is also analyzed.
