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Support and magnet coil KEK Hiroshi Yamaoka Nov. 10, ‘04.

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Presentation on theme: "Support and magnet coil KEK Hiroshi Yamaoka Nov. 10, ‘04."— Presentation transcript:

1 Support and magnet coil KEK Hiroshi Yamaoka Nov. 10, ‘04

2 Initial configuration of the iron yoke Further amount of iron is necessary. → Too large!! Iron Yoke configuration is optimized! 3T

3 Material for return yoke S10C(JIS) Carbon= 0.1wt%  t =310MPa  e =205MPa  allow =120MPa Permeability These dimensions are fixed, Coil length, yoke dimensions are changed. Belle

4 Calculations dz Coil-L 4.25m

5 R2.05m R1.8m R0.4m R1.0m 0 2 1

6 Fringe/Leakage field Flux line Magnetic field distribution

7 Max. 1.8mm Max. 90MPa<120MPa 18000tons Fixed Stress/deformation of End Yoke

8 Max. 7mm Max. 65MPa<120MPa Stress/deformation of Barrel Yoke 13300tons Fixed

9 4.2mm 30mm 4.3mm Aluminum stabilized superconductor NbTi:Cu:Al= 1:0.9:15.6 Strand diameter: 1.23mm Filament diameter: 20  m Jc in NbTi at 5T, 4.2K: > 2750A/mm 2 Ic at 5T, 4.2K: > 20300A (For ATLAS) Superconducting Solenoid

10 Circum. direction Axial direction Compression Stress level in the coil Development of High-strength Al 4.93m(Half) R4.0m Support cylinder (t=50mm) Conductor (h=30mm) 8mm 4mm Deformation of the coil Solenoid center By Makida

11 - Outer vac. vessel 40mm thick p: Buckling pressure 0.1MPa x 2(safety factor) 2000tons Fixed Thickness of ・ Inner vacuum vessel ・ End plates were optimized. Load condition Weight of the calorimeter: 2000tons Weight of the solenoid : ~ 140tons Vacuum : 0.1MPa Cryostat design SUS304  t =530MPa  y =210MPa  allow =140MPa 2000tons Fixed Model-1 Model-2 Oct. 29, ’04 KEK H. Yamaoka

12 118MPa<140MPa 9mm t=40mm t=60mm t=100mm 274MPa>140MPa 15mm 2000tons Fixed 2000tons Fixed t=40mm t=60mm t=100mm 2000tons x 0.3G Fixed 9mm 125MPa Stiffness: D E: Young’s modulus I: Moment of Inertia Model-1Model-2 Material: SUS304

13 Requests to calorimeter structure; - Calorimeter is divided to several pieces in the axial direction. - One piece of calorimeter is stiff enough. 5250(Half) 4930(Half) R4000 R3720 R4400 t=50mm t30mm, 2 layers *Detail design is not yet done. *Coil support system is not designed yet.

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16 Feb. 14, ’02 H. Y Cost estimation of Return Yoke ○ Law material \180/kg x 11000e3kg = \19.8 oku +  (10%) 19.8x1.1=21.8 oku ○ Machining Total area for machining of Barrel yoke 340m 2 End Yoke: 501m 2 Machining cost per 1m 2 \200000/m 2 Total: (340+501)m2x20 万 =16.8 oku +  (10%) 、 16.8x1.1=18.5 oku ○ Design cost 1 oku ○ Cost for QC 0.5 oku ○ 利益率 20 %とすると、 41.8x0.2=8.4 oku Total 50.2 okux1.05= 52.7 oku Cost estimation of Solenoid

17 The way for improving field uniformity Solenoid magnet Z2 R2 R1 Z1 ・ Plenty of amount of iron ・ Minimize Z1,R1 ・ Optimize Z2,R2 3T Saturation

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