2018
DOI: 10.1088/1361-6668/aae8bf
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Effect of transverse compressive monotonic and cyclic loading on the performance of superconducting CORC® cables and wires

Abstract: Superconducting CORC ® cables and wires have become practical conductors for use in high-field magnets for fusion machines and particle accelerators by demonstrating their ability to carry very high currents in background magnetic fields of up to 20 T. The high mechanical stresses that develop on the CORC ® conductor during such operation could result in permanent degradation of the conductor critical current. Transverse compressive stress is one of the predominant mechanical stresses when CORC ® cables or wir… Show more

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Cited by 47 publications
(38 citation statements)
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“…The design allows the incoming REBCO conductor to enter the groove with minimum obstacle. The tensile stress (1.3 MPa) due to the winding tension is well below the irreversible tension stress measured on CORC R wires with 27 or 30 tapes [60].…”
Section: Development Of Rebco Magnet Technology At Lbnlmentioning
confidence: 60%
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“…The design allows the incoming REBCO conductor to enter the groove with minimum obstacle. The tensile stress (1.3 MPa) due to the winding tension is well below the irreversible tension stress measured on CORC R wires with 27 or 30 tapes [60].…”
Section: Development Of Rebco Magnet Technology At Lbnlmentioning
confidence: 60%
“…This stress level is sufficient for a 20 T block REBCO dipole design [67]. Measurements on commercial CORC R wires, without impregnation, showed an estimated irreversible stress limit between 99 and 241 MPa at 76 K, defined at a 3% I c degradation criterion [60].…”
Section: What Is the Maximum Field A Rebco Dipole Magnet Can Achieve?mentioning
confidence: 91%
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