• Title/Summary/Keyword: Ferromagnetic Pipe

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A new magnetic sensor for the non-contact measurement of bending vibrations of non-ferromagnetic pipes (비자성 배관의 비접촉 굽힘 진동 측정을 위한 자기 센서의 개발)

  • Han, Soon-Woo;Kim, Yoon-Young
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2006.05a
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    • pp.1154-1158
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    • 2006
  • This investigation suggests a new non-contact type sensor that can measure flexural vibrations of a non-ferromagnetic pipe. The sensor works on the reversed Lorentz force mechanism; however, anti-symmetric bias magnetic field suggested in this work should be applied to measure bending vibration of a non-ferromagnetic pipe. The importance of the suggested magnetic field is verified by a series of experiments. The sensor is applied to the bending vibration measurement and modal testing of an aluminum pipe and shows satisfactory working performance compared to others.

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The Magnetic Finishing Characteristics of Non-ferromagnetic Pipe Inside Polished (비자성 파이프 내면기 자기연마특성에 관한 연구)

  • Park Won Kyou;Rho Tae Woo;Choi Hwan
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.13 no.6
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    • pp.74-80
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    • 2004
  • An internal finishing process by the application of magnetic abrasive machining has been developed as a new technology to obtain a fine inner surface of pipe. In this paper, the finishing process of a non-ferromagnetic pipe by a static magnetic field method is introduced and its finishing characteristics is discussed with effective factors by various experiments. From these experimental results, it is found that the magnetic abrasives inserted in the pipe are arranged according to the magnetic force line. Through the experimental, it is possible to estimate the proper supply volume of the abrasive, which in proportional to the diameter of pipe.

GMR Sensor Applicability to Remote Field Eddy Current Defect Signal Detection in a Ferromagnetic Pipe (강자성 배관의 원격장 와전류 결함 신호 검출에 GMR Sensor의 적용성 연구)

  • Park, Jeong Won;Park, Jae Ha;Song, Sung Jin;Kim, Hak Joon;Kwon, Se Gon
    • Journal of the Korean Society for Nondestructive Testing
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    • v.36 no.6
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    • pp.483-489
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    • 2016
  • The typical methods used for inspecting ferromagnetic pipes include the ultrasonic testing (UT) contact method and the following non-contact methods: magnetic flux leakage (MFL), electromagnetic acoustic transducers (EMAT), and remote field eddy current testing (RFECT). Among these methods, the RFECT method has the advantage of being able to establish a system smaller than the diameter of a pipe. However, the method has several disadvantages as well, including different sensitivities and difficult-to-repair coil sensors which comprise its array system. Therefore, a giant magneto-resistance (GMR) sensor was applied to address these issues. The GMR sensor is small, easy to replace, and has uniform sensitivity. In this experiment, the GMR sensor was used to measure remote field and defect signal characteristics (in the axial and radial directions) in a ferromagnetic pipe. These characteristics were measured in an effort to investigate standard defects at changing depths within a pipe. The results show that the experiment successfully demonstrated the applicability of the GMR sensor to RFECT signal detection in ferromagnetic pipe.

The Internal Finishing Characteristics of Non-ferromagnetic Pipe Polished by Magnetic Abrasive Machining(I) (자기연마법에 의한 비자성 파이프 내면의 연마특성 (I))

  • Park, W. K.;Rho, T. W.;Seo, Y. I.;Choi, H.;lee, J. C.;Cheong, S. H.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2000.11a
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    • pp.779-782
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    • 2000
  • An internal finishing process by the application of magnetic abrasive machining has been developed as a new technology to obtain a fine inner surface of pipe. In this paper, the finishing process of a non-ferromagnetic pipe by a static magnetic field method is introduced and its finishing characteristics is discussed with effective factors by various experiments. From these experimental results, it is found that the proper suppling quantity of magnetic abrasives per diameter of pipe is important, and the inner surface roughness of pipe is not changed much after certain critical finishing time. As a result of this investigation the 3.2$\mu$m Rmax in inner surface roughness of stainless steel pipe is improved to 0.7$\mu$m Rmax after 6 minutes finishing.

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The Interal Finishing Characteristics of Non-ferromagnetic Pipe Polished by Magnetic Abrasive Machining(II) (자기연마법에 의한 비자성 파이프 내면의 연마특성(II))

  • Park, W. K.;Rho, T. W.;Seo, Y. I.;Choi, H.;lee, J. C.;Cheong, S. H.;Chae, S.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2001.04a
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    • pp.960-963
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    • 2001
  • An internal finishing process by the application of magnetic abrasive machining has been developed as a new technology to obtain a fine inner surface of pipe. In this paper, another method of magnetic abrasive machining in which the N and S magnetic poles are vibrated and a workpiece is rotated only is tried in a non-ferromagnetic pipe(SUS304), and its finishing characteristics is experimental results, it is found that the vibration effects of magnetic poles on the finishing characteristics are large in internal finishing.

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The Effect of Vibratory Magnetic Pole by Magnetic Abrasive Finishing (자기연마법에서 자극 진동 효과)

  • Park, Won-Kyou;Rho, Tae-Woo;Choi, Hwan
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.4 no.1
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    • pp.7-12
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    • 2005
  • An internal finishing process by the application of magnetic abrasive finishing has been developed as a new technology to obtain a fine inner surface of pipe. In this paper, another method of magnetic abrasive machining in which the N and S magnetic poles are vibrated and a workpiece is rotated only is tried in a non-ferromagnetic pipe(SUS304), and its finishing characteristics is experimently investigated by various effective factors such as vibrating frequency and amplitude. From the experimental results, it is found that the vibration effects of magnetic poles on the finishing characteristics are large in internal finishing.

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The Internal Finishing Characteristics of Non-ferromagnetic Pipe Polished by Magnetic Abrasive Machining(III) (자기연마법에 의한 비자성 파이브 내면의 연마특성(III))

  • Park, W. K.;Rho, T. W.;Seo, Y. I.;Choi, H.;lee, J. C.;Cheong, S. H.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1997.10a
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    • pp.915-918
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    • 1997
  • An internal finishing process by the application of magnetic abrasive machining has been developed as a new technology to obtain a fine inner surface of pipe. In this paper, an abrasive circulation system was designed and manufactured. As a result, it was found that a fine inner surface abrasive of pipe was available by the use of this machining methods. The basic machining characteristics of pin-type magnetic tools were analyzed experimentally. In addition, the experimental results show that we can realize that pin-type magnetic tools have more machining efficiency than iron particles as magnetic tools.

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A Study on the Detecting Underground Pipes Using Magnetic Mathod (자기장을 이용한 매설배관의 위치탐지에 관한 연구)

  • 석창성;배봉국;김정표
    • Journal of the Korean Society for Precision Engineering
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    • v.20 no.9
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    • pp.63-69
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    • 2003
  • As increasing underground facilities, more effective management is needed nowadays. It is important to get an accurate information of underground facilities to manage that, so some methods of detecting location - electromagnetic induction method, ground penetration radar method, sound wave method - are used to obtain the information of underground facilities. In this study, a magnetic method to detect underground facilities was developed. In the magnetic method, underground facilities are detected by a detector and the magnetic marker which is a permanent magnet and used to marking the location by attaching underground facilities. A test field was constructed for experiment with the magnetic marker, PVC pipe, and steel pipe under ground 1.5m, and a ferromagnetic detector was used for measurement. Magnetic strengths of the magnetic marker were measured by the detector at each location in the test field, and analyzed by magnetic field analysis tool in the same condition. In the result, the underground pipes of 1.5m below were detectable within the deviation $\pm$0.2m. When For applying this method, it should be considered that ferromagnetic materials around the detector could affect a measured value.

Dipole Model to Predict the Rectangular Defect on Ferromagnetic Pipe

  • Suresh, V.;Abudhair, A.
    • Journal of Magnetics
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    • v.21 no.3
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    • pp.437-441
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    • 2016
  • Dipole model based analytical expression is proposed to estimate the length and depth of the rectangular defect on ferromagnetic pipe. Among the three leakage profiles of Magnetic Flux Leakage (MFL), radial and axial leakage profiles are considered in this work. Permeability variation of the specimen is ignored by considering the flux density as close to saturation level of the inspected specimen. Comparing the profile of both the components, radial leakage profile furnishes the better estimation of defect parameter. This is evident from the results of error percentage of length and depth of the defect. Normalized pattern of the proposed analytical model radial leakage profile is good agreement with the experimentally obtained profile support the performance of proposed expression.