DocumentCode
975051
Title
The Potential Application of
Superconducting Magnets in Space
Author
Alessandrini, M. ; Fang, H. ; Hanna, M. ; Putman, P. ; Zhou, Y.X. ; Salama, K.
Author_Institution
Dept. of Mech. Eng., Houston Univ., TX
Volume
16
Issue
2
fYear
2006
fDate
6/1/2006 12:00:00 AM
Firstpage
1442
Lastpage
1444
Abstract
The low mass density of magnesium diboride (MgB2) and its high critical temperature make it the ideal candidate for lightweight liquid hydrogen cooled superconducting magnets that are pivotal for space applications, where the cost per kilo to orbit is still such an expensive barrier. The feasibility of MgB2 magnets strongly depends on the effect of applied stresses during manufacturing and operational procedures. In this work we introduce our research on mechanical properties of PIT processed wires for magnet applications and for the first time we present results on Ti-sheathed MgB2 wires. Recently we improved our testing capability with new equipment and tested two coils: the first one was a coil with Fe-sheathed wire and the second one, in order to promote the use of this compound for space activities, uses wires with titanium as a sheath material. These wires show similar results to those sheathed with Fe, at 4 K the critical current density Jc is well above 7times10 5 A/cm2. The Ti-sheathed coil is still under testing
Keywords
critical current density (superconductivity); high-temperature superconductors; internal stresses; iron; magnesium compounds; superconducting coils; superconducting magnets; superconducting transition temperature; titanium; 4 K; Fe-sheathed wire; MgB2-Fe; MgB2-Ti; PIT processed wires; Ti-sheathed coil; Ti-sheathed wires; critical current density; critical temperature; lightweight liquid hydrogen cooled superconducting magnets; low mass density; magnet applications; mechanical properties; potential application; sheath material; space activities; space applications; stress effect; superconductivity; testing capability; Coils; Costs; Hydrogen; Magnesium compounds; Materials testing; Space cooling; Stress; Superconducting magnets; Temperature; Wires; Coils; superconductivity; titanium; wires;
fLanguage
English
Journal_Title
Applied Superconductivity, IEEE Transactions on
Publisher
ieee
ISSN
1051-8223
Type
jour
DOI
10.1109/TASC.2005.864483
Filename
1643125
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