Title :
Study on the prediction of quench occurrence in superconducting coils
Author :
Miya, K. ; Yanagi, E. ; Hashizume, H. ; Hamaoka, Y.
Author_Institution :
Nucl. Eng. & Res. Lab., Tokyo Univ., Ibaraki, Japan
fDate :
3/1/1988 12:00:00 AM
Abstract :
A formulation is presented of elastoplastic stress analysis of a laminated structure on the basis of the finite-element method with use of Voigt´s and Reuss´s assumptions. Systematic tests were carried out at room and cryogenic temperatures with specimens composed of stainless steel and epoxy resin to depict a slip curve representing strength of the interface. A three-point bending test was performed to measure temperature rise due to slip and to evaluate temperature distribution by a 3-D computer code. quench experiments were also carried out simulating bulk heating with 35-MeV electron beam.
Keywords :
bending; elastoplasticity; electron beam effects; finite element analysis; quench hardening; stress analysis; superconducting magnets; temperature distribution; 35 MeV; 3D computer code; Reuss´s assumptions; Voigt hypothesis; bulk heating simulation; cryogenic temperatures; elastoplastic stress analysis; epoxy resin; finite-element method; laminated structure; quench occurrence; room temperature; slip curve; stainless steel; superconducting coils; temperature distribution; three-point bending test; Cryogenics; Epoxy resins; Finite element methods; Performance evaluation; Steel; Stress; Superconducting coils; System testing; Temperature distribution; Temperature measurement;
Journal_Title :
Magnetics, IEEE Transactions on
