Title :
FEM Analysis of Nb-Sn Rutherford-Type Cables
Author :
Barzi, E. ; Gallo, G. ; Neri, P.
Author_Institution :
Fermi Nat. Accel. Lab. (Fermilab), Batavia, IL, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
Rutherford-type cables are used in superconducting accelerator magnets. To produce magnetic fields larger than 10 T, brittle superconductors like are typically used. The original round wire, in the form of a composite of Copper, Niobium and Tin, is assembled into a so-called Rutherford-type cable, which is used to wind the magnet. The magnet is then subjected to a high temperature heat treatment to produce the chemical reactions that make the material superconducting. At this stage the superconductor is brittle and its superconducting properties sensitive to strain. This work describes a 2D finite element model, which simulates the mechanical behavior of Rutherford-type cable before heat treatment. The model was applied to a number of different cable architectures. To validate a critical criterion adopted into the single Nb-Sn wire analysis, the results of the model were compared with those measured experimentally on cable cross sections.
Keywords :
accelerator magnets; finite element analysis; heat treatment; niobium; superconducting cables; superconducting magnets; tin; 2D finite element model; FEM analysis; Nb-Sn; brittle superconductors; cable architectures; chemical reactions; copper; high-temperature heat treatment; mechanical behavior; niobium-tin Rutherford-type cables; niobium-tin wire analysis; round wire; superconducting accelerator magnets; superconducting properties; Deformable models; Load modeling; Plastics; Power cables; Strain; Superconducting cables; Wires; ${rm Nb}_{3}{rm Sn}$ wires; Finite element model analysis; Rutherford-type cables; plastic work; principal strain;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2186951
