Enhancement of Nb3Sn Cable Electrical Insulation through Thermal and Plasma Treatments -- Javier Osuna

Friday 5 Sept 2025, 11:00 → 13:00 Europe/Zurich

30/7-018 - Kjell Johnsen Auditorium (CERN)

11:00 → 12:00 Enhancement of Nb3Sn Cable Electrical Insulation through Thermal and Plasma Treatments

Cable insulation serves multiple key functions in Nb3Sn superconducting magnets. Beyond preventing turn-to-turn arcs during quenches, it reduces cracking in the coil’s epoxy resin matrix, and ensures a thin, well-defined spacing between coil turns to maximise current density and control conductor positioning for field quality. It is designed for compatibility with the Nb3Sn reaction heat treatment, subsequent epoxy impregnation and the demanding operating conditions of the magnets.

This seminar analyses thermal and plasma treatments aimed at increasing the dielectric strength and longevity of the cable insulation. First, the mechanism of electrical insulation is discussed, with an emphasis on the role of glass-fibre sizing. This is followed by a summary of the different treatments applied at CERN and other institutes, and their results in improving electrical insulation performance. The seminar concludes with a review of the benefits, challenges and potential implementation of thermal and plasma treatments in magnet coil fabrication for high-field magnets.

Speaker: Javier Osuna (CERN)

5_September_MSC_Seminar_Thermal_Plasma_Treatments_Electrical_Insulation_Corrected_S35.pdf

5_September_MSC_Seminar_Thermal_Plasma_Treatments_Electrical_Insulation_Corrected_S35.pptx

12:00 → 12:30 Discussion