Abstract
Electrical discharge machining is a very accurate non-traditional manufacturing process for creating tiny apertures, complex shapes and geometries within mechanical parts and assemblies. Its performance is evaluated in terms of surface roughness, existence of cracks, voids, and recast layer on the surface of product. The high heat generated on the electrically discharged material during the electrical discharge machining (EDM) process unfortunately decreases the quality of product. In this paper, the high strength and unique electrical and thermal properties of multi-wall carbon nanotubes are used to improve the EDM performance when machining the AISI H13 tool steel, by means of copper electrodes. Material removal rate, electrode wear rate, surface roughness, and recast layer were measured in presence of carbon nanotubes in the dielectric, then compared to the outcome of traditional EDM. Experiments show that mixing multi-wall carbon nanotubes within the dielectric makes the EDM more efficient, particularly if machining parameters are set at low pulse of energy.
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Mohammadzadeh Sari, M., Noordin, M.Y. & Brusa, E. Role of multi-wall carbon nanotubes on the main parameters of the electrical discharge machining (EDM) process. Int J Adv Manuf Technol 68, 1095–1102 (2013). https://doi.org/10.1007/s00170-013-4901-5
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DOI: https://doi.org/10.1007/s00170-013-4901-5