Title :
Finite element modeling of hydrostatic extrusion for mono-core superconductor billets
Author :
Peng, X. ; Sumption, M.D. ; Collings, E.W.
Author_Institution :
Ohio State Univ., Columbus, OH, USA
fDate :
6/1/2003 12:00:00 AM
Abstract :
This paper is concerned with the hydrostatic extrusion of mono-core, bronze-process superconductor billets. The thermo-mechanical, elasto-plastic finite-element method is used to analyze the extrusion process of Nb/bronze mono-core rods. Simulations were performed to determine the distributions of stress, strain and temperature for several extrusion ratios, die angles and core/sleeve interfacial friction coefficients. In addition, the normal pressure at the core/sleeve interface was recorded as a function of die angle and extrusion ratio, which will be useful for the investigations of the bonding process during hydrostatic extrusion.
Keywords :
composite superconductors; extrusion; finite element analysis; friction; Nb-CuSn; Nb/bronze mono-core superconductor billet; bonding process; composite wire; core/sleeve interfacial friction coefficient; die angle; elasto-plastic properties; extrusion ratio; finite element model; hydrostatic extrusion; normal pressure; numerical simulation; strain distribution; stress distribution; temperature distribution; thermomechanical properties; Analytical models; Billets; Capacitive sensors; Finite element methods; Friction; Manufacturing; Niobium; Stress; Temperature distribution; Wires;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2003.812346
