Simulation and Experimental Study of Current Contact Notch Structure on the Fracture Capacity of Pyro-Breaker

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Abstract

The current contact of pyro-breaker must rapidly interrupt current when the superconducting magnet loses its superconductivity. To enhance the microsecond-scale current-breaking capability of pyro-breaker in nuclear fusion devices, this study investigates the impact of current contact notch structures on dynamic fracture behavior. Through multi-physics field modeling and controlled explosive testing, it is revealed for the first time that the rectangular notch structure demonstrates enhanced fracture performance relative to the V-notch configuration under explosive impact loading conditions, achieving a 27.3% reduction in fracture initiation time alongside a 47.5% increase in crack propagation width. These findings provide a robust theoretical basis for designing pyro-breaker with enhanced fast-break capabilities in fusion devices.

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last seen: 2026-05-20T01:45:00.602351+00:00