Abstract:
Micro-needles finds abundant applications in the field of medicines, nanodevices and as a tool for µEDM to study single spark energy. Fabrication of such micro-needles with high accuracy and precision is
a challenging task. In this work, an attempt has been made to manufacture a brass rod by micro-turning
to a diameter of 100 µm. Effects of cutting speed and feed rate on feed-force, cutting-force, machiningforce, surface-roughness, power, and specific cutting force have been studied to optimize the process of
fabricating a brass micro-needle with a smoother surface. SEM, EDS, and AFM have been performed to
study cutting behavior along with the fracture behavior of fabricated micro-needle. The cutting force
behavior was non-linear and was in accordance with the available literature even at micro-level. In
addition to this, the fabricated micro-needles were etched using hydrogen peroxide (H2O2) to fabricate
a sharp-pointed needle having a diameter of ≤ 10 µm. Fabricated µ-turned sharp micro-needles may be
further used as a tool to study single spark energy in the µ-EDM process. Additionally, crater depth,
diameter, tool wear rate (TWR) and material removal rate (MRR) have been calculated for the single spark
of the µ-EDM process using fabricated micro-tool.
