Stability measurements on cored cables in normal and superfluid helium | Zendy

Ajay Ghosh | Zendy; W. B. Sampson | Zendy; S.W. Kim | Zendy; D. Leroy | Zendy; L. Oberli | Zendy; M.N. Wilson | Zendy

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Stability measurements on cored cables in normal and superfluid helium

Author(s) -

Ajay Ghosh,

W. B. Sampson,

S.W. Kim,

D. Leroy,

L. Oberli,

M.N. Wilson

Publication year - 1998

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/638203

Subject(s) - superfluid helium 4 , materials science , helium , liquid helium , electrical conductor , composite material , superfluidity , current (fluid) , mechanics , lambda point refrigerator , condensed matter physics , atomic physics , physics , thermodynamics

The relative stability of LHC type cables has been measured by the direct heating of one of the individual strands with a short duration current pulse. The minimum energy required to initiate a quench has been determined for a number of cables which have a central core to increase the effective inter-strand cross-over resistance. Experiments were performed in both normal helium at 4.4 K and superfluid at 1.9 K. Conductors in general are less stable at the lower temperature when measured at the same fraction of critical current. Results show that the cored-cables, even when partially filled with solder or with a porous-metal filler exhibit a relatively low stability at currents close to the critical current. It is speculated that the high inter-strand electrical and thermal resistance inherent in these cables may effect the stability at high currents

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