Summary
This paper describes the electromechanical design of stress-managed Nb₃Sn common-coil magnets for high-field applications, specifically a PSI 2-in-1 dipole magnet employing eight stress-managed layers and bladder-and-keys pre-loading technology. The work demonstrates that an asymmetric common-coil architecture can achieve adequate field quality without requiring separate pole coils, potentially enabling cost-effective large-scale production via react-and-wind techniques. The study presents detailed 3D magnetic design, mechanical analysis, and protection considerations for this novel magnet configuration.
UK applicability
This paper is not applicable to UK farming systems, soil health, or food production research. It addresses superconducting magnet engineering relevant to high-energy physics and large-scale scientific instrumentation projects.
Key measures
Magnetic field quality, conductor stress, mechanical pre-loading, coil geometry and performance parameters of the PSI 2-in-1 dipole magnet
Outcomes reported
This paper does not report on farming systems, soil health, nutrient density, or human health outcomes. It presents the conceptual design, 3D magnetic design, mechanical analysis, and protection results for a superconducting dipole magnet prototype.
Topic tags
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