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Metallurgical and Materials Transactions B

Erschienen in:

01.06.2013

Simulation of Surface Integrity for Nanopowder-Mixed Dielectric in Micro Electrical Discharge Machining

verfasst von: P. C. Tan, S. H. Yeo

Erschienen in: Metallurgical and Materials Transactions B | Ausgabe 3/2013

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Abstract

The use of powder-mixed dielectric for electrical discharge machining (PMD-EDM) and micro-electrical discharge machining (PMD micro-EDM) has been shown to reduce machined surface roughness and surface defects, such as, recast layer thickness. However, these were mainly empirical studies which had limited capacity to elucidate the physics and characteristics of the PMD-EDM process. In the current study, a new numerical model has been developed to describe the PMD micro-EDM process. The model has taken into account the larger expansion of the plasma channel and reduction in heat flux distributed to the workpiece because of the presence of powder particles. It has been analyzed using finite element methods (FEMs) and based on the multiple discharge approach. The heat source expansion factor due to the presence of powder particles has been estimated to be 1.07 at 0.02 g/L powder concentration. The fraction of heat flux to the workpiece has been found to decrease from 0.24 at 0.02 g/L to 0.11 at 0.2 g/L powder concentration. For model validation, simulated R _max and recast layer thickness values were compared with their corresponding measured values. The simulated and measured results varied with the same general trend which suggested that the proposed process model for PMD micro-EDM was fundamentally sound.

Vorheriger Artikel Effects of Nickel Coating of Mold Plates on Star Crack Defects

Nächster Artikel Diffusion Brazing of Al6061/15 Vol. Pct Al2O3p Using a Cu-Sn Interlayer

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Titel: Simulation of Surface Integrity for Nanopowder-Mixed Dielectric in Micro Electrical Discharge Machining
verfasst von: P. C. Tan
S. H. Yeo
Publikationsdatum: 01.06.2013
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions B / Ausgabe 3/2013
Print ISSN: 1073-5615
Elektronische ISSN: 1543-1916
DOI: https://doi.org/10.1007/s11663-013-9819-7

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