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Elastic-plastic conductor damage evaluation at over 0.4% strain using a high-stress REBCO coil

Jeseok Bang, Griffin Bradford, Kwangmin Kim, Jonathan Lee, Anatolii Polyanskii, D. C. Larbalestier

2024Superconductor Science and Technology11 citationsDOIOpen Access PDF

Abstract

Abstract Recent reports on screening current stress simulations of high-field REBCO magnets frequently present peak stresses over 1 GPa. However, this result is probably an unrealistic artifact of purely elastic calculations, considering the macroscopic yield and fracture stresses of approximately 900 MPa and less than 1.1 GPa for Hastelloy substrate-coated conductors. Here, we evaluate elastic-plastic conductor damage at over 0.4% strain using a high-stress REBCO coil exposed to a high field to explore this elastic-plastic regime. The coil was located off-center in a low-temperature superconductor magnet so as to induce a significant screening current in the enhanced radial field. Voltage taps, a Hall sensor, and two strain gauges were used for the instrumentation. We obtained strains exceeding 0.4% near the outward edge during the coil current charge from 350 A to 390 A, where the coil was exposed to external axial and radial magnetic fields of 13 T and 0.5 T. Post mortem results showed wavy plastic deformation, electrical damage, and REBCO defects. An elastic-plastic simulation reproduced the measured strains and predicted that ∼1 GPa stress is sufficient to induce ∼0.9% strain, thus validating our initial concerns with purely elastic models. This paper provides our experimental and simulation results.

Topics & Concepts

Materials scienceConductorComposite materialElectromagnetic coilStress (linguistics)Strain (injury)Stress–strain curveDeformation (meteorology)Electrical engineeringEngineeringMedicineInternal medicinePhilosophyLinguisticsSuperconducting Materials and ApplicationsNon-Destructive Testing TechniquesCardiac Structural Anomalies and Repair