Study on the Development of Demagnetizing System for Hub Bearing Inner of Automobile

Seung Hyeon You; Sung Hoon Oh

doi:10.4028/www.scientific.net/KEM.730.312

Paper Titles

Chips Morphology Analysis under Graphene Oxide Suspension with Tungsten Carbide Tool in Drilling Ti-6Al-4V
p.289

Study on the Cutting Characteristics of Drilling CFRP Using Exterior Materials of Automobile
p.295

Investigation of Chip Dimensional Characteristics Created by the Specific Cutting Tool at the Machining of 12 050 Steel
p.301

Influence of Deposition and Laser Treatment on Some Characteristics of Medium Carbon Steel
p.306

Study on the Development of Demagnetizing System for Hub Bearing Inner of Automobile
p.312

Effects on Mechanical Properties of Solid State Recycled Aluminium 6061 by Extrusion Material Processing
p.317

Study on Electromagnetic Incremental Aluminium Alloy Tube Bulging with Casting Pipe
p.321

Low Temperature Synthesis of the Carbon Micro Materials
p.327

Effect of Mechanical Activation on the Structural Parameters of Ceramic Powders cBN-Co, hBN-Co
p.333

HomeKey Engineering MaterialsKey Engineering Materials Vol. 730Study on the Development of Demagnetizing System...

Study on the Development of Demagnetizing System for Hub Bearing Inner of Automobile

Abstract:

Demagnetizer has been used in the field of non-destructive test or processing as a tool for removing residual magnetic created on the surface of processed object. In case of residual magnetic left on the part, metal particles around them adhere with each other causing the destruction or abrasion on the part. This study is to develop automatic demagnetizing system for improving the quality of processed items by designing the residual magnetic measuring system, demagnetizing system, and total system to detect magnetic that is derived on parts in the middle of processing in application to bearing process. For this, control system, measuring system, and HMI program that managed them were developed making it feasible to expect the application of them on various automatic processing.

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Periodical:

Key Engineering Materials (Volume 730)

Pages:

312-316

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.730.312

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Online since:

February 2017

Authors:

Seung Hyeon You, Sung Hoon Oh*

Keywords:

Demagnetizer, HMI (Human Machine Interface), PCD Arc Circuit, Residual Magnetic

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