In order to minimise the heat generation in the fast cycled superconducting dipoles foreseen for the synchrotron SIS300 at FAIR, thin filaments NbTi wires must be developed (see presentation of G. Volpini). Following the previous efforts earned out many years ago in SSC developments, we have analyzed some thin filament NbTi wires obtained either from laboratories or industry. These wires give us the opportunity to set up suitable metodology for studying the wire needed to the manufacturing of SIS300 dipoles. We use a magnetic characterization, by means of vibrating sample magnetometer, to get important informations in the wire performances. Rather than the usual critical current density computation, this presentation will deal with typical aspects of thin filaments NbTi wires which can be experimentally derived: The transverse resistivity, the presence of magnetic materials, and the proximity effect.
Magnetization measurements and analyses on thin filament NbTi wires for SIS300 synchrotron superconducting dipoles / U. Gambardella, G. De Marzi, F. Alessandria, G. Bellomo, M. Sorbi, G. Volpini, P. Fabbricatore, S. Farinon, R. Musenich, J. Kaugerts, G. Moritz - In: WAMSDO : workshop accelerator magnet superconductors, design and optimization, CERN, Geneva, Switzerland, 19-23 May 2008 : proceedings / [a cura di] E. Todesco. - Geneve : CERN, 2009 Jan 19. - ISBN 978-92-9083-325-3. - pp. 16-18 (( convegno Workshop on accelerator magnet superconductors, design and optimization tenutosi a CERN, Ginevra nel 2008.
Magnetization measurements and analyses on thin filament NbTi wires for SIS300 synchrotron superconducting dipoles
G. Bellomo;M. Sorbi;
2009
Abstract
In order to minimise the heat generation in the fast cycled superconducting dipoles foreseen for the synchrotron SIS300 at FAIR, thin filaments NbTi wires must be developed (see presentation of G. Volpini). Following the previous efforts earned out many years ago in SSC developments, we have analyzed some thin filament NbTi wires obtained either from laboratories or industry. These wires give us the opportunity to set up suitable metodology for studying the wire needed to the manufacturing of SIS300 dipoles. We use a magnetic characterization, by means of vibrating sample magnetometer, to get important informations in the wire performances. Rather than the usual critical current density computation, this presentation will deal with typical aspects of thin filaments NbTi wires which can be experimentally derived: The transverse resistivity, the presence of magnetic materials, and the proximity effect.
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