2017
DOI: 10.1088/1757-899x/279/1/012021
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Effect of sheath material and reaction overpressure on Ag protrusions into the TiO2insulation coating of Bi-2212 round wire

Abstract: In order to develop a high current density in coils, Bi-2212 wires must be electrically discrete in tight winding packs. It is vital to use an insulating layer that is thin, fulfils the dielectric requirements, and can survive the heat treatment whose maximum temperature reaches 890 °C. A thin (20–30 µm) ceramic coating could be better as the insulating layer compared to alumino-silicate braided fiber insulation, which is about 100 μm thick and reacts with the Ag sheath during heat treatment, degrading the cri… Show more

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Cited by 8 publications
(5 citation statements)
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“…The fact that Ag wire showed a very homogeneous decrease in diameter, whereas the Ag-Mg wire showed slight variations in the decrease in wire diameter along its length, indicates a nonuniformly densified wire. This may indicate an inhomogeneous sheath hardness in the Ag-Mg wire caused by an inhomogeneous distribution of the MgO particles that occurs as the MgO grains form during the heat treatments, as shown in [10]. The oxidation of Mg during the OP-PD may be homogeneous, but as the MgO particles grow during the OP-PD they may become inhomogeneously distributed in the sheath, especially at Ag grain boundaries [11], leading to variations in hardness from place to place within Ag-Mg sheath.…”
Section: Discussionmentioning
confidence: 99%
“…The fact that Ag wire showed a very homogeneous decrease in diameter, whereas the Ag-Mg wire showed slight variations in the decrease in wire diameter along its length, indicates a nonuniformly densified wire. This may indicate an inhomogeneous sheath hardness in the Ag-Mg wire caused by an inhomogeneous distribution of the MgO particles that occurs as the MgO grains form during the heat treatments, as shown in [10]. The oxidation of Mg during the OP-PD may be homogeneous, but as the MgO particles grow during the OP-PD they may become inhomogeneously distributed in the sheath, especially at Ag grain boundaries [11], leading to variations in hardness from place to place within Ag-Mg sheath.…”
Section: Discussionmentioning
confidence: 99%
“…RC3 is identical to RC2 except that its cable was brush painted with several coats of TiO 2 -polymer slurry before being insulated with the same mullite sleeve used for the cables and coil winding of RC1 and RC2. The TiO 2 slurry was prepared with a recipe [21,22] used for single strand solenoids with properties already reported [23][24][25]. Figure 1 shows cross-sections of the wires and the insulated Rutherford cable.…”
Section: Conductor Coil Design and Coil Fabricationmentioning
confidence: 99%
“…It allows us to intercept the Lorentz force at each single turn and transfer it to the mandrel structure, avoiding stress accumulation on the conductor [7][8][9]. The wind-and-react method, on the other hand, poses additional technical problems because the mandrel material must withstand the Bi-2212 heat treatment cycle that reaches a maximum temperature of 890 • C and pressures up to 50 bar in a flowing O 2 /Ar gas mixture environment [10]. The mandrel material must not experience significant oxidation, otherwise the oxygen partial pressure (pO 2 ) in the furnace during heat treatment (usually, the selected pO 2 = 1 bar) may not be sufficient to ensure the proper phase sequence and Bi-2212 melting temperature for achieving a high critical current density.…”
Section: Introductionmentioning
confidence: 99%