Advantages of carbon nanotubes in electrical discharge machining

Carbon nanotubes (CNTs) have a small specific gravity and a straight-pin shape, which allow them to continuously float and to uniformly disperse throughout the entire dielectric-filled cavity with little agglomeration during electrical discharge machining (EDM). In the past, powder mixtures of silic...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology 2012-03, Vol.59 (1-4), p.111-117
Main Authors: Mai, C., Hocheng, Hong, Huang, S.
Format: Article
Language:English
Subjects:
Agglomeration
Aluminum
CAE) and Design
Carbon
Carbon nanotubes
Chemical vapor deposition
Computer-Aided Engineering (CAD
Cracks
Dielectrics
Dispersion
EDM electrodes
Electric arcs
Electric discharge machining
Electrodes
Engineering
Industrial and Production Engineering
Machine shops
Mechanical Engineering
Media Management
Microcracks
Open circuit voltage
Organic chemistry
Original Article
Polarity
Process parameters
Pulse duration
Specific gravity
Surface finish
Surface roughness
Workpieces
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Summary:Carbon nanotubes (CNTs) have a small specific gravity and a straight-pin shape, which allow them to continuously float and to uniformly disperse throughout the entire dielectric-filled cavity with little agglomeration during electrical discharge machining (EDM). In the past, powder mixtures of silicon, aluminum, and chrome have been used in the EDM process. However, there are concerns about flushing the controlled gap between the electrode and the workpiece because of their heavy specific gravity and their associated non-uniform dispersion in the dielectric. In this study, the effect of adding CNT powders to the dielectric on the surface integrity and the machining efficiency of the workpiece were investigated. CNTs can avoid the agglomeration problem. The CNTs were fabricated by chemical vapor deposition and added to the dielectric at a concentration of 0.4 g/l. The average surface roughness of 0.09 μm was achieved within 1.2 h, and the material defects of the recast layer and the micro-cracks were considerably reduced. The adopted processing parameters were a negative electrode polarity, a discharge current of 1 A, a pulse duration of 2 μs, an open-circuit voltage of 280 V, and gap voltage of 70 V. This technology improved the surface finish by 70% and the machining time by 66%. The achievement is attributed to the nanoscale characteristics of the CNTs in the dielectrics. The surface force became large and was able to balance the gravity body force of the CNTs. Consequently, the electric arcs were well dispersed and more uniform across the electrode gap, thus significantly enhancing the performance of the electrical discharge. It is expected that carbon nanotubes will be used in many EDM applications.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-011-3476-2