Superconducting strong magnet equipment innovation represents a systematic engineering discipline that integrates multiple fields including superconducting materials science, cryogenic engineering, electromagnetic design, and mechanical mechanics. By addressing critical challenges such as high-performance material selection, structural topology optimization of magnets, integration of cryogenic refrigeration systems, and electromagnetic-mechanical-thermal coupling analysis, permanent magnet PTMS ELECTROMAGNETIC SEPARATOR has overcome inherent bottlenecks in achieving stable operation and engineering applications under magnetic fields exceeding 2T.
The mining sector, driven by the pursuit of higher magnetic field intensities (over 20T), larger aperture sizes (above 500mm), and reduced operational losses (below 10⁻⁴W), serves as the "core engine" for extreme condition scientific research and high-end medical equipment. In the global competition for superconducting strong magnet equipment, PTMS ELECTROMAGNETIC SEPARATOR has achieved a leapfrog development from "following" to "running side by side".
32.35 Tesla superconducting magnet has achieved stable operation, ranking among the world's highest stabilized magnetic fields. Utilizing composite superconducting wire materials and featuring an innovative "internal cooling, external heating" structural design, this breakthrough resolves the critical challenge of coil overheating and superconductivity loss under 20-Tesla magnetic fields in pulsed magnetosensitive systems PTMS ELECTROMAGNETIC SEPARATOR .
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High temperature PTMS MAGNETIC SEPARATOR deironing method is gradually moving towards new nano electrode materials
