Murakami M., Chen S.K., Miryala M., Kechik M.M., Lim K.P., Shaari A.H., Ramli A., Baqiah H., Talib Z.A., Kamarudin A.N., Abdullah S.N., Karim M.K.
Ключевые слова: HTS, YBCO, bulk, fabrication, heat treatment, doping, graphene, nanoparticles, X-ray diffraction, lattice parameter, microstructure, grain size, susceptibility, critical temperature
Chen S.K., Miryala M., Kechik M.M., Tan K.B., Lim K.P., Shaari A.H., Arvapalli S.S., Hapipi N.M., Lee O.J.
Ключевые слова: MgB2, bulk, fabrication, sintering, powder processing, precursors, composition, ex-situ process, X-ray diffraction, phase composition, lattice parameter, microstructure, grain size, susceptibility, temperature dependence, critical temperature, magnetization, hysteresis, critical caracteristics, Jc/B curves, pinning force, experimental results
Chen S.K., Miryala M., Kechik M.M., Lim K.P., Shaari A.H., Baqiah H., Sukor S.I., Karim M.K., Dzul-Kifli N.A., Shabdin M.K., Shariff K.K.M.
Murakami M., Chen S.K., Miryala M., Kechik M.M., Lim K.P., Shaari A.H., Pinmangkorn S., Ramli A., Baqiah H., Kamarudin A.N.
Nam K., Park W.W., Hur J., Lee Y., Kang K., Her N., Panchal M., Pichel G.P., Noh C.H., Kang D.K., Kim I.J., Lim K.
Ключевые слова: ITER, thermal performance, shields, fabrication, cryostat, vacuum structure
Ключевые слова: HTS, YBCO, bulk, nanoparticles, doping effect, nanoscaled effects, fabrication, susceptibility, temperature dependence, X-ray diffraction, lattice parameter, composition, size effect, grain size, critical temperature, critical current density, magnetic properties, experimental results, precipitation methods
Murakami M., Chen S.K., Miryala M., Kechik M.M., Tan K.B., Lim K.P., Shaari A.H., Hapipi N.M., Lee O.J., Lim J.K.
Ключевые слова: HTS, YBCO, bulk, fabrication, nanodoping, nanoparticles, nanoscaled effects, X-ray diffraction, phase composition, lattice parameter, grain size, microstructure, resistive transition, composition, critical temperature, susceptibility, critical current density, experimental results, precipitation methods
Ключевые слова: MgB2, bulk, doping effect, critical caracteristics, Jc/B curves, experimental results
Nakamura T., Muta I., Hoshino T., Yamada M., Salim K.M.(khosru@iub.edu.bd)
Ключевые слова: FCL rectifier type, HTS, tapes, coils, current waveforms, voltage waveforms, numerical analysis, power equipment
Ключевые слова: FCL rectifier type, modeling, LTS, NbTi, power equipment
Nakamura T.(tk_naka@kuee.kyoto-u.ac.jp), Muta I.(muta@kuee.kyoto-u.ac.jp), Hoshino T.(hoshino@asl.kuee.kyoto-u.ac.jp), Salim K.M.(khosru@asl.kuee.kyoto-u.ac.jp), Kawasaki A.(khosru@asl.kuee.kyoto-u.ac.jp), Yamada M.(K431639@kepco.co.jp)
Ключевые слова: FCL rectifier type, modeling, numerical analysis, power equipment
Nakamura T., Muta I., Hoshino T., Yamada M.(K431639@kepco.co.jp), Salim K.M.
Ключевые слова: FCL rectifier type, LTS, NbTi, current waveforms, voltage waveforms, test results, power equipment
Nakamura T.(tk_naka@kuee.kyoto-u.ac.jp), Muta I.(muta@kuee.kyoto-u.ac.jp), Yamada M., Kawasaki A.(kawasaki@audrey.kuee.kyoto-u.ac.jp), Hoshino T.(hoshino@kuee.kyoto-u.ac.jp), Salim K.M.(khosru@audrey.kuee.kyoto-u.ac.jp)
Ключевые слова: FCL rectifier type, LTS, NbTi, wires, design, power equipment, dc reactor
Ключевые слова: FCL rectifier type, inductance, modeling, power equipment, FCL bridge type
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