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Supplier: Accuris
Description: STANDARD SPECIFICATION FOR NIOBIUM-TITANIUM ALLOY BILLETS, BAR, AND ROD FOR SUPERCONDUCTING APPLICATIONS
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Supplier: Accuris
Description: STANDARD SPECIFICATION FOR NIOBIUM-TITANIUM ALLOY BILLETS, BAR, A ROD FOR SUPERCONDUCTING APPLICATIONS - INCLUDES STANDARD + REDLINE (PDF)
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Supplier: ASTM International
Description: 1.1 This specification covers niobium-titanium alloy billets, bars, and rods, at 46 to 48% titanium. This material is used in the manufacture of wire for superconducting applications. 1.2 The values stated in either inch-pound or SI units are to be regarded separately as
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Supplier: Lake Shore Cryotronics, Inc.
Description: SuperVariMag superconducting magnet systems — SVM Series The standard SuperVariMag systems offer magnetic fields of 6 to 9 T (niobium-titanium coils) and 10 to 14 T (niobium-tin coils), sample tubes of 1.0 in to 1.5 in diameter, and a 20 L useful capacity open neck helium
- Form Factor: Desktop / Module
- Technology: Other
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Supplier: ASTM International
Description: This specification covers three grades of zirconium and zirconium alloy forgings. The forgings shall be formed with conventional forging equipment normally found in primary ferrous and nonferrous metal plants. The forgings are furnished in three grades as Grade R60702, Grade R60702, and Grade
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Supplier: Lake Shore Cryotronics, Inc.
Description: bore for operation between 1.5 K and 325 K (800 K optional). Magnetic fields up to 9 T (niobium-titanium) or up to 14 T (niobium-tin) upon special demand. A special compact system is also available for use in microscopy experiments. The system allows entry of the cryostat through the
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Cryogenic techniques for large superconducting magnets in space
Table 1 compares the properties of a modern niobium titanium superconductor with the yttrium barium copper oxide 1—2-3 conductor.5 -6 The important things to note are: 1) The new conductor 1s a ceramic which Is more brittle than niobium titanium…
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Generation of the J/sub c/, H/sub c/, T/sub c/ surface for commercial superconductor using reduced-state parameters
A number of niobium titanium superconductors were examined to determine .
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High-T/sub c/ superconductor and its use in superconducting magnets
If one puts the niobium titanium superconductor into copper (which has .
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Field generated within the SSC magnets due to persistant currents in the superconductor
The curve labeled old s/c (old superconductor) is characteristic of the niobium titanium superconductor produced in the early 1970's.
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Calculating the Jc, B, T surface for niobium titanium using a reduced-state model
This report presents a methodfor calculating the Jc, B, T surface for commercial niobium titanium superconductor given Tc, Bc2and Jc over a range B at a given temperature.
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Practical Design of Magnetostatic Structure Using Numerical Simulation
(1996) New development in niobium titanium superconductors .
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An update on passive correctors for the SSC dipole magnets
The magnetization sextupole decay observed in the LBL dipoles is probably not ali due flux creep decay in the niobium titanium superconductor 19,32.
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The superconducting solenoid magnets for MICE
From a practical standpoint, the properties of a usable niobium titanium superconductor do not permit one to operate the standard MICE cooling channel for all of the cases shown above.
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Cryogenic refrigeration requirements for superconducting insertion devices in a light source
This temperature drop is marginally OK for the Superbend magnet, but it would be unacceptable for a high performance insertion device fabricated from niobium titanium superconductor .
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ASC 84: applied superconductivity conference. Final program and abstracts
The conductor will consist of strands of multifilament copper- stabilized niobium titanium superconductor which will be cabled together with strands of copper and tightly compacted in a vacuum-tight stainless steel jacket.