The Research of the EDG-LS Technological Effect Based on Orthogonal Test

Gang Gou; Yong Liu; Zhong Yuan Lin

doi:10.4028/www.scientific.net/AMM.543-547.3943

Paper Titles

A Study on the Technical Method of Drilling Micro Holes on New CMC-SiC with Femtosecond Laser
p.3924

Application Research and Analysis of Bending Springback of Semi-Circular Arc Stamping Parts Based on DYNAFORM
p.3931

Sheet Laser Bending Simulation Study Based on ABAQUS
p.3935

First-Principles Investigation of Electronic Structure and Dynamic Properties of SrCl₂ under High Pressure
p.3939

The Research of the EDG-LS Technological Effect Based on Orthogonal Test
p.3943

The Spin Transport of the Coblt Dimers with Different Directions
p.3947

Barrier and Seed Layers Deposition in TSV Using Magnetron Sputtering
p.3951

Flatness Detection and Roll Shape Adjustment of Cold Rolled Material
p.3955

A Molecular Dynamic Study on the Equation of State for Argon Fluid at Temperatures Near its Critical Point
p.3959

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 543-547The Research of the EDG-LS Technological Effect...

The Research of the EDG-LS Technological Effect Based on Orthogonal Test

Abstract:

Aiming at the finishing of small hole of difficult-to-machine materials such as carbide, etc, this paper presented a new low speed electrical discharge grinding (EDG-LS) processing method, in which a machine tool accessory was equipped on WEDM-LS to realize the grinding process. Through the analysis of orthogonal test, the key factors affecting technological effect were discussed in the processing of EDG-LS, and the influence of average gap voltage, average gap current and workpiece speed on machining dimension and surface quality were elaborated respectively. It is of importantly theoretical and practical significance to seek better technology parameter in EDG-LS.

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Periodical:

Applied Mechanics and Materials (Volumes 543-547)

Pages:

3943-3946

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.543-547.3943

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Online since:

March 2014

Authors:

Gang Gou*, Yong Liu, Zhong Yuan Lin

Keywords:

Electrical Discharge Grinding (EDG), Influence Factor, Orthogonal Experimental Design (OED), Technological Effect, Variance Analysis

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* - Corresponding Author

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