超导体与金属复合材料 铌锡超导体 Niobium-Tin (Nb3Sn)
主要用途
布鲁克制造的NbSn超导线材为高磁场技术中最苛刻的应用提供基准性能。它们在高达>20特斯拉的磁场中良好的工作特性使其成为低温超导体的金标准。
核磁共振(核磁共振)光谱学是布鲁克NbSn线材最突出的应用。提供磁场强度超过20特斯拉的磁铁被用于核磁共振系统。
我们的铌锡导体也用于所有主要的粒子加速器和聚变研究项目,这将在未来需要超过12特斯拉的磁铁。
Features
Today, Bruker Nb3Sn wires are applied at a large scale in high field nuclear magnetic resonance spectrometry (NMR), high energy physics and fusion research. Customers worldwide use Bruker LTS materials to push technological limits and rely on our experts to tailor conductors precisely to specific requirements. And we look forward to discussing yours!
NbSn superconductor wires manufactured by Bruker deliver benchmark performance for the most demanding applications in magnetic high-field technology. Their favorable operating characteristics in magnetic fields of up to > 20 Tesla make them the gold standard of low-temperature superconductors.
Benefits
NbSn superconductor wires manufactured by Bruker deliver benchmark performance for the most demanding applications in magnetic high-field technology. Their favorable operating characteristics in magnetic fields of up to > 20 Tesla make them the gold standard of low-temperature superconductors.
Nuclear Magnetic Resonance (NMR) Spectroscopy is the most prominent application of Bruker NbSn wires. Magnets delivering field strengths in excess of 20 Tesla are employed in NMR systems.
Our NbSn conductors are also utilized in all major particle accelerator and fusion research projects, which will in future require magnets exceeding 12 Tesla.
We meet the specific challenges presented by these areas of deployment:
Bronze-based NbSn wires by Bruker are the industry’s first choice wherever very high performance superconductors must also feature robust mechanical load-bearing capacities.
Our bronze-based wire design has been proving its versatility in magnets between 10 to 23 Tesla for many years and is applicable, as well, for exceptionally demanding LTS cable configurations.
Nuclear Magnetic Resonance (NMR) Spectroscopy is the most prominent application of Bruker NbSn wires. Magnets delivering field strengths in excess of 20 Tesla are employed in NMR systems. Our NbSn conductors are also utilized in all major particle accelerator and fusion research projects, which will in future require magnets exceeding 12 Tesla.
The very best high field performance attainable in Nb Sn is provided by BEST's RRP wire. This performance has enabled multiple world-record setting magnets. BEST has scaled up this state-of-the-art conductor to commercial production. For applications demanding the very best high field performance, RRP may provide the most cost effective conductor.