A Study on Optimum Condition of Centerless Grinding Machine for Ferrule Using Taguchi Method and Response Surface Method

Eun Sang Lee; Jung Hyung Lee

doi:10.4028/www.scientific.net/KEM.329.9

Paper Titles

Implementation of Thermal Models in Grinding
p.3

A Study on Optimum Condition of Centerless Grinding Machine for Ferrule Using Taguchi Method and Response Surface Method
p.9

Grinding Acoustic Emission Classification in Terms of Mechanical Behaviours
p.15

Development of Intelligent Grinding Database
p.21

An Experimental Investigation of Optimal Grinding Condition for Aspheric Surface Lens Using Full Factorial Design
p.27

Grinding Performance of a Grain-Arranged Diamond Wheel against Industrial Pure Aluminum
p.33

Improvement of Machining Accuracy in Micro Cylindrical Traverse Grinding
p.39

A Micro Ultrasonic Grinding Device with Very High Frequency and its Application
p.45

Computer Simulations of Cylindrical Plunge Grinding - Influence of Work Stiffness on Grinding Accuracy -
p.51

HomeKey Engineering MaterialsKey Engineering Materials Vol. 329A Study on Optimum Condition of Centerless...

A Study on Optimum Condition of Centerless Grinding Machine for Ferrule Using Taguchi Method and Response Surface Method

Abstract:

The surface roughness in centerless grinding is mainly affected by the many process parameters. For decreasing the surface roughness, the control of grinding parameters is very important. This paper deal with the analysis of the process parameters such as height of centers, tilting angle of the regulating wheel, speed of the regulating wheel, developed based on Taguchi method and response surface method. The effect of grinding parameters on the surface roughness was evaluated the utilization of the response surface model was evaluated with constraints of the surface roughness.

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Periodical:

Key Engineering Materials (Volume 329)

Pages:

9-14

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.329.9

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Online since:

January 2007

Authors:

Eun Sang Lee, Jung Hyung Lee

Keywords:

Centreless Grinding, Ferrule, RSM, Taguchi Method

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References

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