Open Engineering (May 2020)

The Effect of Discharge Current and Pulse-On Time on Biocompatible Zr-based BMG Sinking-EDM

  • Pradana Yanuar Rohmat Aji,
  • Ferara Aldi,
  • Aminnudin Aminnudin,
  • Wahono Wahono,
  • Jang Jason Shian-Ching

DOI
https://doi.org/10.1515/eng-2020-0049
Journal volume & issue
Vol. 10, no. 1
pp. 401 – 407

Abstract

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The machinability information of Zr-based bulk metallic glasses (BMGs) are recently limited but essential to provide technological recommendation for the fabrication of the medical devices due to the material’s metastable nature. This study aims to investigate the material removal rate (MRR) and surface roughness under different current and pulse-on time of newly developed Ni- and Cu-free Zr-based BMG using sinking-electrical discharge machining (EDM). By using weightloss calculation, surface roughness test and scanning electron microscopy (SEM) observation on the workpiece after machining, both MRR and surface roughness were obtained to be increased up to 0.594 mm3/min and 5.50 μm, respectively, when the higher current was applied. On the other hand, the longer pulse-on time shifted the Ra into the higher value but lower the MRR value to only 0.183 mm3/min at 150 μs. Contrary, the surface hardness value was enhanced by both higher current and pulse-on time applied during machining indicating different level of structural change after high-temperature spark exposure on the BMG surface. These phenomena are strongly related to the surface evaporation which characterize the formation of crater and recast layer in various thicknesses and morphologies as well as the crystallization under the different discharge energy and exposure time.

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