An experimental investigation of gold coated silicon using nano powder mixed micro-wire electro discharge machining

Micro Wire Electro Discharge Machining (µ-WEDM) is a type of electro-discharge machining (EDM) process where wire is used instead of a rigid tool. It is a reliable and precise machining process, which is commonly used to produce various complex structural shapes for a wide range of industrial applic...

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Bibliographic Details
Main Authors: Jarin, Sams, Saleh, Tanveer, Asan Gani, Abdul Muthalif, Ali, Mohammad Yeakub
Format: Conference or Workshop Item
Language:English
Published: 2016
Subjects:
Online Access:http://irep.iium.edu.my/52942/2/ABSTRACT-BOOK-AMPT2016_-updated-02112016-1.pdf
http://irep.iium.edu.my/52942/
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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Summary:Micro Wire Electro Discharge Machining (µ-WEDM) is a type of electro-discharge machining (EDM) process where wire is used instead of a rigid tool. It is a reliable and precise machining process, which is commonly used to produce various complex structural shapes for a wide range of industrial applications. However, to machine a semiconductor material of high resistivity like silicon (Si) requires more advanced processing to produce larger electrical sparks during the µ-WEDM operation. Current (µ-WEDM) technology is not enough to realize a stable machining environment for Si. In this research a new type of µ-WEDM process for Si machining was investigated. At first Si was temporarily coated with gold and then nano powder mixed dielectric medium was used for the WEDMing process. The main purpose of this work is to investigate the effects of different nano powder concentrations on two important response factors such as material removal rate (MRR) and spark gap (SG). In this regard, the µ-WEDMing of gold coated silicon was carried out in pure dielectric EDM oil and also in three different concentrations (0.1g/L,1g/L,2g/L) of nano powder mixed dielectric oil to conduct an initial study with the aim to achieve better machining accuracy and stability. Based on the experimental investigations, it was obtained that at different carbon concentrations the MRR were found to be increased on average minimum ~ 1% to maximum ~ 33% respectively, as compared to machining in pure dielectric medium. The spark gap was also observed to be increased by a significant margin on average of ~ 2% to up to ~ 159% than without using any nano powder concentration, correspondingly.