Title :
A Finite Element Model for Mechanical Analysis of LHC Main Dipole Magnet Coils
Author :
Pojer, Mirko ; Devred, Arnaud ; Scandale, Walter
Author_Institution :
CERN, Geneva
fDate :
6/1/2007 12:00:00 AM
Abstract :
After years of studies and observations, the mechanical stability of the LHC main dipole magnets still remains an open issue. The robustness of these magnets has already been asserted and their reliability in operation is not far from being proven. However, anomalous mechanical behaviors sometimes observed are not yet completely understood. A finite element model, which has been recently developed at CERN, aims at providing an instrument for better explaining these anomalies. Cable modeling and contact between elements, friction and mechanical hysteresis are the key features of this model. The simulation of the hysteresis experienced by the coil during collaring, presented here, is the starting point for the representation of the whole life cycle of the dipole coil.
Keywords :
accelerator magnets; finite element analysis; mechanical stability; superconducting coils; CERN; LHC main dipole magnet coils; cable modeling; finite element model; mechanical analysis; mechanical hysteresis; mechanical stability; reliability; superconducting accelerator magnet; Coils; Finite element methods; Friction; Hysteresis; Instruments; Large Hadron Collider; Magnetic analysis; Mechanical cables; Robustness; Stability; Finite element model; LHC; mechanical hysteresis; superconducting accelerator magnet;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2007.898078
