Ekmekci, BElkoca, OErden, ADepartment of Mechatronics Engineering2024-07-052024-07-052005411073-56151543-191610.1007/s11663-005-0011-62-s2.0-14744271882https://doi.org/10.1007/s11663-005-0011-6https://hdl.handle.net/20.500.14411/1216Elkoca, Oktay/0000-0002-0007-0741; Erden, Abdulsamet/0000-0002-8084-2018; Ekmekci, Bulent/0000-0002-3632-2197The violent nature of the electric discharge machining (EDM) process leads to a unique structure. on the surface of a machined part. In this study, the influence of electrode material and type of dielectric liquid on the surface integrity of plastic mold steel samples is investigated. The results have shown that regardless of the tool electrode and the dielectric liquid, the white layer is formed on machined surfaces. This layer is composed of cementite (Fe3C) and martensite distributed in retained austenite matrix forming dendritic structures, due to rapid solidification of the molten metal, if carbon-based dielectric liquid is used. The intensity of cracking increases at high pulse durations and low pulse currents. Cracks on the EDM surfaces have been found to follow the pitting arrangements with closed loops and to cross perpendicularly with radial cracks and continue to propagate when another discharge takes place, in the neighborhood. The amount of retained austenite phase and the intensity of microcracks have found to be much less in the white layer of the samples machined in de-ionized water dielectric liquid. The number of globule appendages attached to the surface increased when a carbon-based tool electrode material or a dielectric liquid was used during machining.eninfo:eu-repo/semantics/closedAccess[No Keyword Available]A comparative study on the surface integrity of plastic mold steel due to electric discharge machiningArticleQ2Q2361117124WOS:000226655500011