Deburring Effect of Plasma Produced by Nanosecond Laser Ablation-Reference-Cited by-同舟云学术

Deburring Effect of Plasma Produced by Nanosecond Laser Ablation

Published:2014-01-15 Issue:2 Volume:136 Page:
ISSN:1087-1357
Container-title:Journal of Manufacturing Science and Engineering
language:en
Short-container-title:

Author:

Zhou Yun¹,Gao Yibo²,Wu Benxin³,Tao Sha⁴,Liu Ze⁵

Affiliation:

1. Electro Scientific Industries, Inc., 48660 Kato Road, Fremont, CA 94538

2. Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology, 10 W. 32nd Street, Engineering 1 Building, Chicago, IL 60616

3. Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology, 10 W. 32nd Street, Engineering 1 Building, Chicago, IL 60616 e-mail:

4. Advanced Optowave Corporation, 105 Comac Street, Ronkonkoma, NY 11779

5. Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology, 10 W. 32nd Street, Engineering 1 Building, Chicago, IL 60616

Abstract

This paper presents an interesting nanosecond (ns) laser-induced plasma deburring (LPD) effect (from microchannel sidewalls) discovered by the authors, which has been rarely reported before in the literature. Fast imagining study has been performed on plasma produced by ns laser ablation of the bottom of microchannels. It has been found that the plasma can effectively remove burrs from the sidewall of the channels, while on the other hand microscopic images taken in this study did not show any obvious size or shape change of the channel sidewall after LPD. LPD using a sacrifice plate has also been studied, where the plasma for deburring is generated by laser ablation of the sacrifice plate instead of the workpiece. The observed laser-induced plasma deburring effect has several potential advantages in practical micromanufacturing applications, such as high spatial resolution, noncontact and no tool wear, and less possibility of damaging or overmachining useful microfeatures when removing burrs from them. The fundamental mechanisms for the observed laser-induced plasma deburring effect still require lots of further work to completely understand, which may include mechanical breaking of burrs due to high kinetic energies carried by plasma and the associated shock wave, and/or thermal transport from plasma to burrs that may cause their heating and phase change, or other mechanisms.

Publisher

ASME International

Subject

Industrial and Manufacturing Engineering,Computer Science Applications,Mechanical Engineering,Control and Systems Engineering

Link

http://asmedigitalcollection.asme.org/manufacturingscience/article-pdf/doi/10.1115/1.4025910/6263938/manu_136_02_024501.pdf

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