56 research outputs found
Development of high critical current density in multifilamentary round-wire Bi2Sr2CaCu2O8+x by strong overdoping
Bi2Sr2CaCu2O8+x is the only cuprate superconductor that can be made into a
round-wire conductor form with a high enough critical current density Jc for
applications. Here we show that the Jc(5 T,4.2 K) of such Ag-sheathed
filamentary wires can be doubled to more than 1.4x10^5 A/cm^2 by low
temperature oxygenation. Careful analysis shows that the improved performance
is associated with a 12 K reduction in transition temperature Tc to 80 K and a
significant enhancement in intergranular connectivity. In spite of the
macroscopically untextured nature of the wire, overdoping is highly effective
in producing high Jc values.Comment: 4 figure
Evidence for length-dependent wire expansion, filament dedensification and consequent degradation of critical current density in Ag-alloy sheathed Bi-2212 wires
It is well known that longer Bi-2212 conductors have significantly lower
critical current density (Jc) than shorter ones, and recently it has become
clear that a major cause of this reduction is internal gas pressure generated
during heat treatment, which expands the wire diameter and dedensifies the
Bi-2212 filaments. Here we report on the length-dependent expansion of 5 to 240
cm lengths of state-of-the-art, commercial Ag alloy-sheathed Bi-2212 wire after
full and some partial heat treatments. Detailed image analysis along the wire
length shows that the wire diameter increases with distance from the ends,
longer samples often showing evident damage and leaks provoked by the internal
gas pressure. Comparison of heat treatments carried out just below the melting
point and with the usual melt process makes it clear that melting is crucial to
developing high internal pressure. The decay of Jc away from the ends is
directly correlated to the local wire diameter increase, which decreases the
local Bi-2212 filament mass density and lowers Jc, often by well over 50%. It
is clear that control of the internal gas pressure is crucial to attaining the
full Jc of these very promising round wires and that the very variable
properties of Bi-2212 wires are due to the fact that this internal gas pressure
has so far not been well controlled
35.4 T field generated using a layer-wound superconducting coil made of (RE)Ba2Cu3O7-x (RE = Rare Earth) coated conductor
To explore the limits of layer wound (RE)Ba2Cu3O7-x (REBCO, RE = Rare Earth)
coils in a high magnetic field environment > 30 T, a series of small insert
coils have been built and characterized in background fields. One of the coils
repeatedly reached 35.4 T using a single ~100 m length of REBCO tape wet wound
with epoxy and nested in a 31 T background magnet. The coil was quenched safely
several times without degradation. Contributing to the success of this coil was
the introduction of a thin polyester film that surrounded the conductor. This
approach introduces a weak circumferential plane in the coil pack that prevents
conductor delamination that has caused degradation of several epoxy impregnated
coils previously made by this and other groups.Comment: 7 pages, 3 figures, 1 tabl
Reduction of gas bubbles and improved critical current density in Bi-2212 round wire by swaging
Bi-2212 round wire is made by the powder-in-tube technique. An unavoidable
property of powder-in-tube conductors is that there is about 30% void space in
the as-drawn wire. We have recently shown that the gas present in the as-drawn
Bi-2212 wire agglomerates into large bubbles and that they are presently the
most deleterious current limiting mechanism. By densifying short 2212 wires
before reaction through cold isostatic pressing (CIPping), the void space was
almost removed and the gas bubble density was reduced significantly, resulting
in a doubled engineering critical current density (JE) of 810 A/mm2 at 5 T, 4.2
K. Here we report on densifying Bi-2212 wire by swaging, which increased JE
(4.2 K, 5 T) from 486 A/mm2 for as-drawn wire to 808 A/mm2 for swaged wire.
This result further confirms that enhancing the filament packing density is of
great importance for making major JE improvement in this round-wire magnet
conductor.Comment: To be published in IEEE Transactions on Applied Superconductivity,
23, xxxxxx (2013
Comparing powder magnetization and transport critical current of Bi,Pb(2223) tapes
The magnetic field dependence of the critical current in (Bi,Pb)/sub 2/Sr/sub 2/Ca/sub 2/Cu/sub 3/O/sub 10+x/ tapes is compared with the magnetization response of isolated grains extracted from the tapes. Special attention is paid to the low-field behavior. The goal of the experiment is to test the widely-used hypothesis that current paths in these tapes contain both weak- and strong- linked branches, which in low field act in parallel. The data agree with this hypothesis; at temperatures above 50 K the powder magnetization drops off exponentially from the self-field to the irreversibility field, while the transport and magnetization currents in the intact tapes show an extra low-field component. Below 50 K the powder behavior becomes less straightforward, but the parallel-path picture in the tapes still holds
Recommended from our members
Tripled critical current in racetrack coils made of Bi-2212 Rutherford cables with overpressure processing and leakage control
We fabricated three racetrack coils (RC1, RC2, and RC3) from Bi-2212 Rutherford cables (17-strand, thickness × width = 1.44 mm × 7.8 mm, strand diameter = 0.8 mm) and applied overpressure processing heat treatment (OPHT). The quench currents of RC1 and RC2 reached 5268 A and 5781 A, respectively, despite them still, surprisingly, exhibiting some Bi-2212 leakage to the surface. After removing most of the leakages using a simple-to-implement insulation scheme, the quench current of RC3 improved to 6485 A, which is about three times the average quench current of a dozen racetrack coils that had been fabricated and reacted using the conventional 1 bar heat treatment. The results confirm the effectiveness of the OPHT technology and the new leakage control scheme for coils made from Bi-2212 Rutherford cables. Coils exhibited an increased quench current with increasing the current ramp rate from 5 to 200 A s ; they were quite stable against point and transient disturbances, and were capable of adsorbing persistent Joule heating at ∼80 mW for >15 s before quenching. These behaviors are different from Nb-Ti and Nb Sn accelerator magnets. Overall, our results provide a critical evaluation and verification of Bi-2212 wire and magnet technologies (wire, insulation, heat treatment, coil fabrication, and coil operation), reveal crucial new stability features of Bi-2212 magnets, and demonstrate technological options for it to become a practical high-field magnet technology. -1
Про сутність і структуру процесів взаємодії суб’єктів інноваційної діяльності
Сутність взаємодії суб’єктів інноваційної діяльності у статті визначається з урахуванням трансформації творчого зерна у суспільне надбання, що пов’язане з узгодженням економічних інтересів на всіх рівнях НІС; наводиться секторальна структура НІС за функціональним критерієм та критерієм, що враховує інноваційну активність економічних суб’єктів.In the article essence of co-operation of actors of innovative activity is determined taking into account transformation of creative corn in public property which is related to the concordance of economic interests at all levels of NIS; a sector structure of NIS is pointed after a functional criterion and criterion which takes into account innovative activity of economic actors
Review on Superconducting Materials
Short review of the topical comprehension of the superconductor materials
classes Cuprate High-Temperature Superconductors, other oxide superconductors,
Iron-based Superconductors, Heavy-Fermion Superconductors, Nitride
Superconductors, Organic and other Carbon-based Superconductors and Boride and
Borocarbide Superconductors, featuring their present theoretical understanding
and their aspects with respect to technical applications.Comment: A previous version of this article has been published in \" Applied
Superconductivity: Handbook on Devices and Applications \", Wiley-VCH ISBN:
978-3-527-41209-9. The new extended and updated version will be published in
\" Encyclopedia of Applied Physics \", Wiley-VC
- …