Paper Title:
Study on Plane Magnetic Abrasive Finishing Process - Experimental and Theoretical Analysis on Polishing Trajectory -
  Abstract

This research studies an effective polishing process to elevate the surface precision and homogeneity by improving the polishing trajectory of magnetic brush. The moment of magnetic brush is a key influence factor on finishing characteristics, but in conventional plane magnetic abrasive Polishing process, the movements of magnetic brush is relatively simple. In this paper a polishing process using the complex polishing trajectory of magnetic brush has been modified and studied by use of newly designed experiment device. The linear movement of workpiece, the rotation and revolution or movement in XY coordinate plane of magnetic brush can be realized by this device. In comparison with conventional method, variation regularity about surface roughness and the material removal are been studied. According to experimental results for polishing trajectory of magnetic brush, finishing characteristics was clarified. The results show that studies on polishing trajectory of magnetic brush are more valuable and the experimental researches are consistent with theoretical analysis. In addition, the accuracy of plane magnetic abrasive finishing can be elevated in terms of the reasonable planning for polishing trajectory of magnetic brush.

  Info
Periodical
Advanced Materials Research (Volumes 126-128)
Edited by
Yunn-Shiuan Liao, Chao-Chang A. Chen, Choung-Lii Chao and Pei-Lum Tso
Pages
1023-1028
DOI
10.4028/www.scientific.net/AMR.126-128.1023
Citation
Y. H. Zou, A. Y. Jiao, T. Aizawa, "Study on Plane Magnetic Abrasive Finishing Process - Experimental and Theoretical Analysis on Polishing Trajectory -", Advanced Materials Research, Vols. 126-128, pp. 1023-1028, 2010
Online since
August 2010
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Yan Hua Zou, Takeo Shinmura
Abstract:This paper describes a new efficient internal finishing process for a thick tubing (10~30mm in thickness), by the application of a magnetic...
106
Authors: Shi Ming Ji, Ya Min Xu, Guo Da Chen, Ming Sheng Jin
Abstract:Nowadays, researches concerned magnetic abrasive finishing (MAF) are becoming increasingly popular. Polishing head is one of the most...
593
Authors: Ya Dong Gong, Yue Ming Liu, Jun Cheng, J.F. Zhang
Abstract:Grinding characteristics brought by the grinding speed reduction and geometrical model differences between micro-grinding and conventional...
6
Authors: Mahadev Gouda Patil, Kamlesh Chandra, Prabhu Shankar Misra
Chapter 5: Powder Metallurgy and Plastic Deformation
Abstract:Abstract: The magnetic abrasive finishing (MAF) process which was introduced during the late 1940s has emerged as an important...
1577
Authors: Han Ming Chow, Wei Liang Ku, Ching Tien Lin, Yan Cherng Lin, Lieh Dai Yang
Chapter 4: Applied Materials Engineering and Material Processing Technologies
Abstract:The purpose of this study was using a new approach of grey relational analysis based on Taguchi experimental design to employ the magnetic...
331