Manufacturing and characterization of copper nano particles by ultrasonic-assisted electrical discharge machining

Document Type : Original Article

Authors

1 M.Sc student, department of mechanical engineering at Isfahan University of Technology

2 Assistant Professor of mechanical engineering at Isfahan university of technology

3 Associate Professor of mechanical engineering at Isfahan University of Technology

Abstract

Todays, since using metallic nanoparticles has been developed in various industries, achieving new methods to produce them is considered as an important issue. Comparing to other nanoparticle production methods, the dielectric discharge process has been emphasized due to its low cost and environmental compatibility. In this study, the ultrasonic-assisted electrical discharge process is designed and manufactured in order to produce copper nanoparticles in di-ionized fluid. The different machining parameters effect, as current intensity, pulse on/off time, and the ultrasonic vibrations on the produced particle size, material removal rate, suspensive particle stability in the fluid, and the particle abundance percentage is investigated. Characterizing the produced nanoparticles is done by different methods. Determining the purity of nanoparticles, percentage of abundance and the average particle size in the dielectric fluid and the produced particle size has been done by applying Energy Dispersive Analysis by X-ray (EDAX), Dynamic Light Scattering (DLS) and Field Emission Scanning Electronic Microscope (FESEM) image, respectively. Based on the results, the produced nanoparticles purity was more than 95%. By using ultrasonic vibration, the nanoparticles stability significantly was increased and the sedimentation time was more than 5 months. Moreover, the average particle size in more than 70% was less than 100 nm.

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Iranian Journal of Manufacturing Engineering
Volume 6, Issue 1
May and June 2019
Pages 24-31

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