IJIRST (International Journal for Innovative Research in Science & Technology)ISSN (online) : 2349-6010

 International Journal for Innovative Research in Science & Technology

Optimization of Machining Parameter in Die Sinking EDM Cut over Aluminium using Copper Tool


Print Email Cite
International Journal for Innovative Research in Science & Technology
Volume 4 Issue - 11
Year of Publication : 2018
Authors : A M Vijay Anand ; M. Mathiyalagan; S S Sabarigiri; A Madhesh; M Muthukrishnan

BibTeX:

@article{IJIRSTV4I11022,
     title={Optimization of Machining Parameter in Die Sinking EDM Cut over Aluminium using Copper Tool},
     author={A M Vijay Anand, M. Mathiyalagan, S S Sabarigiri, A Madhesh and M Muthukrishnan},
     journal={International Journal for Innovative Research in Science & Technology},
     volume={4},
     number={11},
     pages={90--99},
     year={},
     url={http://www.ijirst.org/articles/IJIRSTV4I11022.pdf},
     publisher={IJIRST (International Journal for Innovative Research in Science & Technology)},
}



Abstract:

EDM finds to be one of the most extensively used non-conventional material removal processes for challenging materials and difficult-to-cut materials with conventional machining process. EDM is a thermo-electric process in which material is removed from work piece by thermo erosion effect by series of electric discharges (in terms of sparks) between tool and work piece which are immersed in a dielectric medium. This project have been carried out on ZNC-EDM by taking Aluminum, Tool as work material and copper as electrode. For experimentation Peak Voltage (Vin), Peak Current (Iin) and Pulse on Time (TON) are taken as key input parameters based on literature support. Metal Removal Rate (MRR), Tool Wear Rate(TWR) has taken as performance measures. EDM oil is used as dielectric medium between tool and work piece.


Keywords:

EDM, Aluminum, material removal rate, electrode wear rate, disintegration-drilling- cobalt-bonded, tungsten carbide- response surface methodology- Electric discharge machining (EDM)


Download Article