An 87.8 mm bore single aperture 10 T Nb3Sn model dipole magnet is under development as a next step in the realization of high-field Nb3Sn dipole magnets. The magnet is a 2 layer cos(&thetas;)-dipole model as an alternative for the proposed NbTi D1 beam separator magnets for the LHC. After completion of the general magnetic and mechanical design, all attention is focused on the manufacturing and cabling of a novel powder-in-tube Nb3Sn conductor. This Nb3Sn conductor is characterized by a high non-Cu Jc of 2680 A/mm2 at 10 T with an effective filament size of about 20 ¿m. Cabling should result in a Rutherford type of cable exhibiting a moderate Jc degradation due to the cabling process itself, a low transverse stress sensitivity and a controllable minimum value of Rc. The conductor development program is presented and the results are evaluated. Progress on the actual realization of the coils is briefly described
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机译:正在开发一种87.8 mm孔单孔10 T Nb3Sn模型偶极磁体,作为实现高磁场Nb3Sn偶极磁体的下一步。该磁体是2层cos(θ)-偶极子模型,是用于LHC的NbTi D1束分离器磁体的替代方案。在完成了常规的磁和机械设计之后,所有注意力都集中在新型的管内粉末Nb3Sn导体的制造和布线上。这种Nb3Sn导体的特征是在10 T时具有2680 A / mm2的高非铜Jc,有效丝径约为20μm。布线应使卢瑟福型电缆表现出适度的Jc降级,这归因于布线过程本身,较低的横向应力敏感性和可控的Rc最小值。提出了导体开发程序并评估了结果。简要描述了线圈的实际实现过程
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