The EXTRA method enables accurate 3D magneto-thermal FE simulations of large-scale NI HTS magnets by explicitly resolving critical turns while homogenizing others, reducing computation time by up to 13x on benchmarks.
Influence of critical current defect on operation, quench detection and protection of a conduction-cooled pancake rebco coil,
2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Presents and verifies a surface contact approximation derived from the thin shell approximation for efficient magneto-thermal FEA of no-insulation HTS coils, showing robustness advantages over thickness-dependent TSA in pancake coil simulations.
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Explicit Turn Resolution with Anisotropic Homogenisation for Efficient 3D Magneto-Thermal Finite-Element Simulation of Large-Scale No-Insulation HTS Magnets
The EXTRA method enables accurate 3D magneto-thermal FE simulations of large-scale NI HTS magnets by explicitly resolving critical turns while homogenizing others, reducing computation time by up to 13x on benchmarks.