2013
DOI: 10.1088/0953-2048/26/3/035015
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AC losses in high pressure synthesized MgB2bulk rings measured by a transformer method

Abstract: The recently developed manufacturing technologies use high pressure and various doping additions to prepare bulk MgB 2 -based materials with a high critical current density measured by the magnetization methods. We use a contactless transformer method, which is based on studying the superconductor response to an induced transport current, to measure AC losses in bulk MgB 2 rings synthesized under high pressure. The obtained dependence of the losses on the primary current (applied magnetic field) is fitted by t… Show more

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Cited by 9 publications
(14 citation statements)
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“…A low ratio of the primary coil inductances in the current limitation regime and nominal one, 0.09/0.28≈3.2, is explained by peculiarities of the design of the magnetic system for the big ring: ratio of the height of the magnetic core to its diameter was about only 0.39. For more realistic SFLC model with other rings the inductance ration increases up to [5][6][7]. In liquid helium all tested models returned into an initial state for 1-2 s. A quenching current in rings, I q , changes in the range of 4,500 ÷ 24,000 A, corresponding to the quenching current density J q = 19,000÷63,200 A/cm 2 .…”
Section: Quenching Currentsmentioning
confidence: 93%
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“…A low ratio of the primary coil inductances in the current limitation regime and nominal one, 0.09/0.28≈3.2, is explained by peculiarities of the design of the magnetic system for the big ring: ratio of the height of the magnetic core to its diameter was about only 0.39. For more realistic SFLC model with other rings the inductance ration increases up to [5][6][7]. In liquid helium all tested models returned into an initial state for 1-2 s. A quenching current in rings, I q , changes in the range of 4,500 ÷ 24,000 A, corresponding to the quenching current density J q = 19,000÷63,200 A/cm 2 .…”
Section: Quenching Currentsmentioning
confidence: 93%
“…Basically, the device resembles a transformer with the short-circuited secondary coil which can be performed completely from a superconducting material in the form of a hollow cylinder or ring or as a coil containing a superconducting switching element ( Figure 1) [2,3,7]. The primary coil of this transformer is in series connected to the protected circuit.…”
Section: Experimental Set-upmentioning
confidence: 99%
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