Test results for a subscale (100 kA) SMES splice

The design for the 20 MW-hr SMES-ETM for the Bechtel concept calls for two splices per turn of conductor, and over 100 turns. The design value of resistance for the splices is on the order of 10/sup -11/ ohms (0.4) W/splice at 200 kA), which is an order of magnitude less than the state of the art fo...

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Veröffentlicht in:	IEEE transactions on magnetics 1994-07, Vol.30 (4), p.1639-1644
Hauptverfasser:	Peck, S.D., Zeigler, J.C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Conducting materials Conductors Electrical resistance measurement Fabrication Manufacturing Samarium Superconducting cables Superconducting magnetic energy storage Superconducting magnets Testing
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container_title	IEEE transactions on magnetics
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creator	Peck, S.D. Zeigler, J.C.
description	The design for the 20 MW-hr SMES-ETM for the Bechtel concept calls for two splices per turn of conductor, and over 100 turns. The design value of resistance for the splices is on the order of 10/sup -11/ ohms (0.4) W/splice at 200 kA), which is an order of magnitude less than the state of the art for high current devices. The splice design utilizes a superconducting braid wrapped around lapped subcables for an extremely low resistance joint. A history of the manufacturing development for the splice is presented. The performance of a sub-scale version of the splice joint has been measured at Texas Accelerator Center. Values of splice resistance at 1.8 K and background fields up to 5 T are reported. Performance of a 100 kA conductor is also reported.< >
doi_str_mv	10.1109/20.305573
format	Article
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The design value of resistance for the splices is on the order of 10/sup -11/ ohms (0.4) W/splice at 200 kA), which is an order of magnitude less than the state of the art for high current devices. The splice design utilizes a superconducting braid wrapped around lapped subcables for an extremely low resistance joint. A history of the manufacturing development for the splice is presented. The performance of a sub-scale version of the splice joint has been measured at Texas Accelerator Center. Values of splice resistance at 1.8 K and background fields up to 5 T are reported. 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The design value of resistance for the splices is on the order of 10/sup -11/ ohms (0.4) W/splice at 200 kA), which is an order of magnitude less than the state of the art for high current devices. The splice design utilizes a superconducting braid wrapped around lapped subcables for an extremely low resistance joint. A history of the manufacturing development for the splice is presented. The performance of a sub-scale version of the splice joint has been measured at Texas Accelerator Center. Values of splice resistance at 1.8 K and background fields up to 5 T are reported. 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The design value of resistance for the splices is on the order of 10/sup -11/ ohms (0.4) W/splice at 200 kA), which is an order of magnitude less than the state of the art for high current devices. The splice design utilizes a superconducting braid wrapped around lapped subcables for an extremely low resistance joint. A history of the manufacturing development for the splice is presented. The performance of a sub-scale version of the splice joint has been measured at Texas Accelerator Center. Values of splice resistance at 1.8 K and background fields up to 5 T are reported. Performance of a 100 kA conductor is also reported.< ></abstract><pub>IEEE</pub><doi>10.1109/20.305573</doi><tpages>6</tpages></addata></record>
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subjects	Conducting materials Conductors Electrical resistance measurement Fabrication Manufacturing Samarium Superconducting cables Superconducting magnetic energy storage Superconducting magnets Testing
title	Test results for a subscale (100 kA) SMES splice
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