Influence of thermal conductivity cf electrodes on EDM process parameters

Electrical Discharge machining (EDM) is a thermal process in which sparks discharging with high energy density at high temperatures are used to melt and evaporate a small amount of workpiece. Under this condition, both the cutting tool (electrode) and the workpiece are subjected to very intensive he...

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Main Authors: Khan, Ahsan Ali, Mohammed , Baba Ndaliman, Md. Soot, Hamizah, Ishak, Norazah
Format: Article
Language:English
Published: INSI Publications 2012
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Online Access:http://irep.iium.edu.my/28775/1/2012%2C_Thermal_Conductivity.pdf
http://irep.iium.edu.my/28775/
http://www.ajbasweb.com/ajbas/2012/Sep%202012/337-345.pdf
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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spelling my.iium.irep.287752014-07-22T03:11:04Z http://irep.iium.edu.my/28775/ Influence of thermal conductivity cf electrodes on EDM process parameters Khan, Ahsan Ali Mohammed , Baba Ndaliman Md. Soot, Hamizah Ishak, Norazah TS200 Metal manufactures. Metalworking Electrical Discharge machining (EDM) is a thermal process in which sparks discharging with high energy density at high temperatures are used to melt and evaporate a small amount of workpiece. Under this condition, both the cutting tool (electrode) and the workpiece are subjected to very intensive heat energy generated in the system, and thus implying that thermal conductivity might play a role in the process. This paper reports the results of an investigation on the influence of thermal conductivity of electrode material on EDM process parameters. The parameters investigated were material removal rate (MRR), electrode wear ratio (EWR) and surface roughness (Ra) of the machined surface. Three types Copper-tungsten (Cu-W) electrodes of different thermal conductivities were used in machining stainless steel workpiece. Their thermal conductivities are 2.40 Wcm¯¹ °C¯¹, 2.01 W cm¯¹ °C¯¹ and 1.82 W cm¯¹ °C¯¹. The three different levels of peak current applied were 1.5A, 3.5A and 6.5A. The results of the machining showed that the MRR was found to be highest at thermal conductivity of 1.82 W cm¯¹ °C¯¹ and discharge current of 6.5 A. Investigations also indicate that the influence of the electrodes’ thermal conductivity is more pronounced on the MRR, as it shows that there is interaction effect with the peak current on it. The maximum EWR of about 3.36 % was obtained with the current of 4.5 A, and subsequently reduces with further increase in the current. The surface finish of work material was found to be the best at the current of 1.5A and thermal conductivity of 1.82W cm¯¹ °C¯¹. INSI Publications 2012 Article REM application/pdf en http://irep.iium.edu.my/28775/1/2012%2C_Thermal_Conductivity.pdf Khan, Ahsan Ali and Mohammed , Baba Ndaliman and Md. Soot, Hamizah and Ishak, Norazah (2012) Influence of thermal conductivity cf electrodes on EDM process parameters. Australian Journal of Basic and Applied Sciences, 6 (9). pp. 337-345. ISSN 1991-8178 http://www.ajbasweb.com/ajbas/2012/Sep%202012/337-345.pdf
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
topic TS200 Metal manufactures. Metalworking
spellingShingle TS200 Metal manufactures. Metalworking
Khan, Ahsan Ali
Mohammed , Baba Ndaliman
Md. Soot, Hamizah
Ishak, Norazah
Influence of thermal conductivity cf electrodes on EDM process parameters
description Electrical Discharge machining (EDM) is a thermal process in which sparks discharging with high energy density at high temperatures are used to melt and evaporate a small amount of workpiece. Under this condition, both the cutting tool (electrode) and the workpiece are subjected to very intensive heat energy generated in the system, and thus implying that thermal conductivity might play a role in the process. This paper reports the results of an investigation on the influence of thermal conductivity of electrode material on EDM process parameters. The parameters investigated were material removal rate (MRR), electrode wear ratio (EWR) and surface roughness (Ra) of the machined surface. Three types Copper-tungsten (Cu-W) electrodes of different thermal conductivities were used in machining stainless steel workpiece. Their thermal conductivities are 2.40 Wcm¯¹ °C¯¹, 2.01 W cm¯¹ °C¯¹ and 1.82 W cm¯¹ °C¯¹. The three different levels of peak current applied were 1.5A, 3.5A and 6.5A. The results of the machining showed that the MRR was found to be highest at thermal conductivity of 1.82 W cm¯¹ °C¯¹ and discharge current of 6.5 A. Investigations also indicate that the influence of the electrodes’ thermal conductivity is more pronounced on the MRR, as it shows that there is interaction effect with the peak current on it. The maximum EWR of about 3.36 % was obtained with the current of 4.5 A, and subsequently reduces with further increase in the current. The surface finish of work material was found to be the best at the current of 1.5A and thermal conductivity of 1.82W cm¯¹ °C¯¹.
format Article
author Khan, Ahsan Ali
Mohammed , Baba Ndaliman
Md. Soot, Hamizah
Ishak, Norazah
author_facet Khan, Ahsan Ali
Mohammed , Baba Ndaliman
Md. Soot, Hamizah
Ishak, Norazah
author_sort Khan, Ahsan Ali
title Influence of thermal conductivity cf electrodes on EDM process parameters
title_short Influence of thermal conductivity cf electrodes on EDM process parameters
title_full Influence of thermal conductivity cf electrodes on EDM process parameters
title_fullStr Influence of thermal conductivity cf electrodes on EDM process parameters
title_full_unstemmed Influence of thermal conductivity cf electrodes on EDM process parameters
title_sort influence of thermal conductivity cf electrodes on edm process parameters
publisher INSI Publications
publishDate 2012
url http://irep.iium.edu.my/28775/1/2012%2C_Thermal_Conductivity.pdf
http://irep.iium.edu.my/28775/
http://www.ajbasweb.com/ajbas/2012/Sep%202012/337-345.pdf
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