Combined Atomistic-Continuum Modeling of Nano-EDM Process

He Li; Jian Wen Guo; Wu Yi Ming; Zhen Zhang

doi:10.4028/www.scientific.net/AMR.887-888.1210

Paper Titles

Cutting Force Model for Heat Assisted Titanium Alloy Milling
p.1191

Optimization of Cutting Conditions of YG15 on Finish Cutting in WEDM Based on Taguchi Method
p.1195

The Effect of Cutting Process Parameters on the Stability in Milling
p.1200

Cutting Performance of TiB₂/WC/h-BN Micro/nano Composite Gradient Self-Lubricating Ceramic Tool when Machining Carbon Steel
p.1205

Combined Atomistic-Continuum Modeling of Nano-EDM Process
p.1210

Influence on BTA Boring Bar Transverse Vibration Considering Inner Cutting Fluid Velocity and Axial Force
p.1215

Directly Manufacturing Table Tennis Mould by Hybrid Plasma Deposition & Milling
p.1219

The Straightening Scheme Analysis for the Copper-Clad Steel Tube
p.1223

Effect of Alumina Bubbles on Mechanical Properties and Microstructure of Metal Bond for Superabrasive Grinding Wheels
p.1227

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 887-888Combined Atomistic-Continuum Modeling of Nano-EDM...

Combined Atomistic-Continuum Modeling of Nano-EDM Process

Abstract:

Nano electrical discharge machining (nanoEDM) method is an attractive measure to the manufacturing of parts of nanoscale dimension or precision, and is getting more and more interest of researchers, however, due to the incompleteness of EDM theories, the development of more advanced nanoEDM technology is impeded. In this paper, a hybrid simulation model, namely, combination of the molecular dynamics simulation model and two-temperature model of single discharge process in nanoEDM is constructed to study the machining process of nanoEDM from the thermal point of view.

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Periodical:

Advanced Materials Research (Volumes 887-888)

Pages:

1210-1214

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.887-888.1210

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Online since:

February 2014

Authors:

He Li, Jian Wen Guo*, Wu Yi Ming, Zhen Zhang

Keywords:

Molecular Dynamics Simulation, Nano-EDM, Two-Temperature Model

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