Title :
Thermomechanical properties of the coil of the superconducting magnets for the Large Hadron Collider
Author :
Couturier, Karine ; Ferracin, Paolo ; Scandale, Walter ; Todesco, Ezio ; Tommasini, Davide
Author_Institution :
EST Div., Eur. Lab. for Particle Phys., Geneva, Switzerland
fDate :
6/1/2002 12:00:00 AM
Abstract :
The correct definition and measurement of the thermomechanical properties of the superconducting cable used in high-field magnets is crucial to study and model the behavior of the magnet coil from assembly to the operational conditions. In this paper, the authors analyze the superconducting coil of the main dipoles for the Large Hadron Collider. They describe an experimental setup for measuring the elastic modulus at room and at liquid nitrogen temperature and for evaluating the thermal contraction coefficient. The coils exhibit strong nonlinear stress-strain behavior characterized by hysteresis phenomena, which decreases from warm to cold temperature, and a thermal contraction coefficient, which depends on the stress applied to the cable during cooldown.
Keywords :
Young´s modulus; accelerator magnets; colliding beam accelerators; elastic hysteresis; proton accelerators; shrinkage; storage rings; stress-strain relations; superconducting coils; superconducting magnets; synchrotrons; Large Hadron Collider; austenitic steel collars; azimuthal prestress; cooldown; elastic modulus; high-field magnets; hysteresis phenomena; iron yoke; liquid nitrogen temperature; magnet coil; main dipoles; nonlinear stress-strain behavior; room temperature; stress-displacement curves; superconducting cable; thermal contraction coefficient; thermal shrinkage; thermomechanical properties; Assembly; Large Hadron Collider; Magnetic analysis; Magnetic properties; Nitrogen; Superconducting cables; Superconducting coils; Superconducting magnets; Thermal stresses; Thermomechanical processes;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2002.1020341
