Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite
In the present work, a hybrid magnetic field assisted powder mixed electrical discharge machining had been carried out on the Aluminum-Silicon Carbide (Al-SiC) metal matrix composite. The aim of the study was to obtain higher surface finish, and enhanced material removal rate. The dielectric mediums...
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doaj-012c1ea3c89b4db7bd0509588ff069a82021-04-21T23:05:52ZengMDPI AGMicromachines2072-666X2021-04-011246946910.3390/mi12050469Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix CompositeTimur Rizovich Ablyaz0Preetkanwal Singh Bains1Sarabjeet Singh Sidhu2Karim Ravilevich Muratov3Evgeny Sergeevich Shlykov4Mechanical Engineering Faculty, Perm National Research Polytechnic University, 614000 Perm, RussiaMechanical Engineering Department, IKG Punjab Technical University, Kapurthala 144603, IndiaMechanical Engineering Department, Beant College of Engineering and Technology, Gurdaspur 143521, IndiaMechanical Engineering Faculty, Perm National Research Polytechnic University, 614000 Perm, RussiaMechanical Engineering Faculty, Perm National Research Polytechnic University, 614000 Perm, RussiaIn the present work, a hybrid magnetic field assisted powder mixed electrical discharge machining had been carried out on the Aluminum-Silicon Carbide (Al-SiC) metal matrix composite. The aim of the study was to obtain higher surface finish, and enhanced material removal rate. The dielectric mediums employed were plain EDM oil, SiCp mixed and graphite powder mixed EDM oil for flushing through the tube electrode. The magnetic field intensity, discharge current, T-on/off duration and type of dielectric were the control variables used for present investigation. From the results, it was observed that the machining variables for instance, discharge current, T-on/off duration and type of dielectric conditions remarkably affected the material removal rate, micro-hardness and surface roughness of the machined composite material. The MRR augmented considerably with an increase in the magnetic field intensity along with peak current. Subsequently, the composite with lesser vol.% of SiC particulates witnessed sharp rise in MRR in maximum magnetic field environment (0.66T). In addition, quality of the machined surface improved significantly in graphite powder mixed dielectric flushing condition with intermediate external magnetic field environment. Besides, an enhancement of micro-hardness was quantified as compared to base material due to the transfer of the material (SiCp) during powder mixed ED machining.https://www.mdpi.com/2072-666X/12/5/469electrical discharge machiningmetal matrix compositeTaguchimicro-hardnesssurface roughnessmaterial removal rate |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Timur Rizovich Ablyaz Preetkanwal Singh Bains Sarabjeet Singh Sidhu Karim Ravilevich Muratov Evgeny Sergeevich Shlykov |
spellingShingle |
Timur Rizovich Ablyaz Preetkanwal Singh Bains Sarabjeet Singh Sidhu Karim Ravilevich Muratov Evgeny Sergeevich Shlykov Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite Micromachines electrical discharge machining metal matrix composite Taguchi micro-hardness surface roughness material removal rate |
author_facet |
Timur Rizovich Ablyaz Preetkanwal Singh Bains Sarabjeet Singh Sidhu Karim Ravilevich Muratov Evgeny Sergeevich Shlykov |
author_sort |
Timur Rizovich Ablyaz |
title |
Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite |
title_short |
Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite |
title_full |
Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite |
title_fullStr |
Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite |
title_full_unstemmed |
Impact of Magnetic Field Environment on the EDM Performance of Al-SiC Metal Matrix Composite |
title_sort |
impact of magnetic field environment on the edm performance of al-sic metal matrix composite |
publisher |
MDPI AG |
series |
Micromachines |
issn |
2072-666X |
publishDate |
2021-04-01 |
description |
In the present work, a hybrid magnetic field assisted powder mixed electrical discharge machining had been carried out on the Aluminum-Silicon Carbide (Al-SiC) metal matrix composite. The aim of the study was to obtain higher surface finish, and enhanced material removal rate. The dielectric mediums employed were plain EDM oil, SiCp mixed and graphite powder mixed EDM oil for flushing through the tube electrode. The magnetic field intensity, discharge current, T-on/off duration and type of dielectric were the control variables used for present investigation. From the results, it was observed that the machining variables for instance, discharge current, T-on/off duration and type of dielectric conditions remarkably affected the material removal rate, micro-hardness and surface roughness of the machined composite material. The MRR augmented considerably with an increase in the magnetic field intensity along with peak current. Subsequently, the composite with lesser vol.% of SiC particulates witnessed sharp rise in MRR in maximum magnetic field environment (0.66T). In addition, quality of the machined surface improved significantly in graphite powder mixed dielectric flushing condition with intermediate external magnetic field environment. Besides, an enhancement of micro-hardness was quantified as compared to base material due to the transfer of the material (SiCp) during powder mixed ED machining. |
topic |
electrical discharge machining metal matrix composite Taguchi micro-hardness surface roughness material removal rate |
url |
https://www.mdpi.com/2072-666X/12/5/469 |
work_keys_str_mv |
AT timurrizovichablyaz impactofmagneticfieldenvironmentontheedmperformanceofalsicmetalmatrixcomposite AT preetkanwalsinghbains impactofmagneticfieldenvironmentontheedmperformanceofalsicmetalmatrixcomposite AT sarabjeetsinghsidhu impactofmagneticfieldenvironmentontheedmperformanceofalsicmetalmatrixcomposite AT karimravilevichmuratov impactofmagneticfieldenvironmentontheedmperformanceofalsicmetalmatrixcomposite AT evgenysergeevichshlykov impactofmagneticfieldenvironmentontheedmperformanceofalsicmetalmatrixcomposite |
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