Assembly and Loading of LQS01, a Shell-Based 3.7 m Long Quadrupole Magnet for LARP

The LHC Accelerator Research Program (LARP) has been engaged in the fabrication of the 3.7 m long quadrupole magnet LQS01 in order to demonstrate that Nb 3 Sn magnets are a viable option for future LHC Luminosity upgrades. The LQS01 design, a scale-up of the 1 m long Technology Quadrupole TQS, inclu...

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Bibliographic Details
Published in:IEEE transactions on applied superconductivity 2010-06, Vol.20 (3), p.279-282
Main Authors: Ferracin, P, Ambrosio, G, Anerella, M, Bingham, B, Bossert, R, Caspi, S, Cheng, D W, Chlachidze, G, Felice, H, Hafalia, A R, Hannaford, C R, Mumper, W, Nobrega, F, Prestemon, S, Sabbi, G L, Schmalzle, J, Sylvester, C, Tartaglia, M, Wanderer, P, Zlobin, A V
Format: Article
Language:English
Subjects:
Accelerator magnets
Aluminum
Assembly
Capacitive sensors
Coils
Fabrication
Large Hadron Collider
LARP
Niobium
quadrupole magnet
Strain gauges
Testing
Tin
{\rm Nb}_{3}{\rm Sn}
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Summary:The LHC Accelerator Research Program (LARP) has been engaged in the fabrication of the 3.7 m long quadrupole magnet LQS01 in order to demonstrate that Nb 3 Sn magnets are a viable option for future LHC Luminosity upgrades. The LQS01 design, a scale-up of the 1 m long Technology Quadrupole TQS, includes four 3.4 m long cos(theta) coils contained in a support structure based on four 1 m long aluminum shells pre-tensioned with water-pressurized bladders (shell-type structure). In order to verify assembly procedures and loading operations, the structure was pre-stressed around solid aluminum "dummy coils" and cooled-down to 77 K. Mechanical behavior and stress variations were monitored with strain gauges mounted on the structure and on the dummy coils. The dummy coils were then replaced with Nb 3 Sn coils in a second assembly and loading procedure, in preparation for the cool-down and test. This paper reports on the cool-down test with dummy coils and on the assembly and loading of LQS01, with a comparison between 3D finite element model predictions and strain gauge data.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2010.2042045