Study on Magnetic Flux Dissipation and Field-Trapping Performance of HTS Bulk-Shaped Magnesium Diboride in Pulse-Field Magnetizing Processes

Tetsuo Oka; Akira Takeda; Hayami Oki; Jun Ogawa; Satoshi Fukui; Juliana Scheiter; Wolfgang Hasler; Kazuya Yokoyama; Kengo Yamanaka; Longji Dadiel; Muralidhar Miryala; Masato Murakami; Naomichi Sakai; Jacques Noudem

doi:10.1109/TASC.2019.2908752

Journal Articles IEEE Transactions on Applied Superconductivity Year : 2019

Study on Magnetic Flux Dissipation and Field-Trapping Performance of HTS Bulk-Shaped Magnesium Diboride in Pulse-Field Magnetizing Processes

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Tetsuo Oka

Function : Author

Shibaura Institute of Technology

Akira Takeda

Function : Author

Niigata University

Hayami Oki

Function : Author

Niigata University

Jun Ogawa

Function : Author

Niigata University

Satoshi Fukui

Function : Author

Niigata University

Juliana Scheiter

Function : Author

Leibniz Institute for Solid State and Materials Research

Wolfgang Hasler

Function : Author

Leibniz Institute for Solid State and Materials Research

Kazuya Yokoyama

Function : Author

Ashikaga Institute of Technology

Kengo Yamanaka

Function : Author

Shibaura Institute of Technology

Longji Dadiel

Function : Author

Shibaura Institute of Technology

Muralidhar Miryala

Function : Author

Shibaura Institute of Technology

Masato Murakami

Function : Author

Shibaura Institute of Technology

Naomichi Sakai

Function : Author

Shibaura Institute of Technology

Jacques Noudem

Function : Author
PersonId : 989293

Laboratoire de cristallographie et sciences des matériaux

Abstract

The magnetic flux dissipation from the MgB 2 bulk magnets during pulsed field magnetization (PFM) processes has been estimated for the samples fabricated by hot-pressing (HP) and spark plasma sintering (SPS). We defined the parameters as field penetration ratio B P /B a and the field trapping ratio B T /B P to evaluate the flux motion and performance. The data plots of trapping ratio B T /B P showed us two regions which originate from the fast flux flow and flux jump. The field trapping performance was drastically degraded when the flux jump happened. Flux jump happened at various times after the peak field. A very late flux jump happened at 420 ms which severely degraded the trapped field. This time delay, much larger than the heat propagation time in the MgB 2 sample, remains to be explained.

Keywords

Bulk superconductors Magnesium compounds Magnetic field measurement Magnetization processes Magnetic flux Heating systems Temperature measurement Superconducting magnets High-temperature superconductors Magnetic separation Magnetic resonance Flux flow Hot pressing Magnetization Plasma materials processing Sintering

Domains

Material chemistry

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Submitted on : Wednesday, August 7, 2019-2:29:44 PM

Last modification on : Friday, March 24, 2023-2:53:12 PM

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hal-02264660 , version 1 (07-08-2019)

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HAL Id : hal-02264660 , version 1
DOI : 10.1109/TASC.2019.2908752

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Tetsuo Oka, Akira Takeda, Hayami Oki, Jun Ogawa, Satoshi Fukui, et al.. Study on Magnetic Flux Dissipation and Field-Trapping Performance of HTS Bulk-Shaped Magnesium Diboride in Pulse-Field Magnetizing Processes. IEEE Transactions on Applied Superconductivity, 2019, 29 (5), pp.1-6. ⟨10.1109/TASC.2019.2908752⟩. ⟨hal-02264660⟩

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Study on Magnetic Flux Dissipation and Field-Trapping Performance of HTS Bulk-Shaped Magnesium Diboride in Pulse-Field Magnetizing Processes

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