Abstract
Within CERN the development of REBCO-CORC (Conductor On Round Core) type cables is pursued in view of possible application in future detector and accelerator magnets. An important issue is the design and qualification of terminations for connecting CORC cables mutually or to bus-bars. A termination design is envisaged that combines a simple manufacturing process with a lowest possible joint terminal resistance in the few nΩ range at 4.2 K, first for a single CORC cable and subsequently for CORC based Cable-in-Conduit Conductors. The investigation concerns the effect of tapering the CORC cable within the joint to form a staircase like geometry, which allows current to pass more directly from the copper joint casing to the inner REBCO layers of the CORC cable. Simulations have shown a substantial decrease in joint resistance at operating current in the case both CORC cable and joint casing are tapered. The CORC cable and new joint were tested at CERN. In this paper, some details of the new joint design, fabrication process, and model are presented and the results are summarized.
Highlights
The CORC (Conductor On Round Core) cable is a new REBCO tape based cable technology
The CORC cable is a flexible round cable that comprises many REBCO tapes wound in multiple layers around a cylindrical wire [1]
CERN is pursuing the development of CORC type REBCO cables in view of possible application in future detector and accelerator magnets
Summary
This content has been downloaded from IOPscience. Please scroll down to see the full text. 102 012026 (http://iopscience.iop.org/1757-899X/102/1/012026) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 68.115.166.38 This content was downloaded on 13/03/2016 at 21:20 Please note that terms and conditions apply
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