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2D STRESS ANALYSIS OF THE TS MAGNET PROTOTYPE Stefania Farinon and Pasquale Fabbricatore.

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Presentation on theme: "2D STRESS ANALYSIS OF THE TS MAGNET PROTOTYPE Stefania Farinon and Pasquale Fabbricatore."— Presentation transcript:

1 2D STRESS ANALYSIS OF THE TS MAGNET PROTOTYPE Stefania Farinon and Pasquale Fabbricatore

2 Stefania Farinon Young modulus of pure Al bare conductor

3 Stefania Farinon Material properties in the coil cylindrical coordinate system, x=radial, y=axial, z=azimuthal  pure Al/Al alloy temp (K)E (GPa)10 -3 dl/lPoisson 4-30055/794.20.33 300-40050/702.30.33  Rutherford cable temp (K)Ex (GPa)Ey (GPa)Ez (GPa)10 -3 dl/lPoisson 4-300120 15 552.60.2 300-40090 10 501.260.2  fiberglass (parallel to fibers) temp (K)Ex (GPa)10 -3 dl/lPoisson 4-300 232.50.15 300-400 (before impregn.) 51.230.37 300-400 (after impregn.) 231.00.15  fiberglass (perp. to fibers) temp (K)Ex (GPa)10 -3 dl/lPoisson 4-300 157.10.15 300-400 (before impregn.) 11.230.37 300-400 (after impregn.) 153.00.15  friction coefficient:  =0.2 before impregnation  =0.9 after impregnation

4 Stefania Farinon Load steps  winding around steel mandrel (E=210 GPa)  heating up to 400 K → change of fiberglass properties  cooldown to 300 K  steel mandrel removal  shrink fit of external cylinder (axial and radial interference)  cool-down to 4K  energization (Lorentz forces calculated by Mau in different configurations)

5 Stefania Farinon Conclusions of last meeting  winding, impregnation and shrink fitting are not critical operations for conductors  most of the stress in conductors, which strongly depends on the interference, is due to cool-down  energization, even in the worst case (+coil14 +coil15 120% of the current) doesn’t significantly worsen the conductor stress status next slides are focused on the effect of interference on the stress after cool down

6 Stefania Farinon hoop stress as function of radial interference after cool-down

7 Stefania Farinon Von Mises stress as function of radial interference after cool-down

8 Stefania Farinon hoop stress in external cylinder after cool-down interference=0.1 mminterference=0.3 mm

9 Stefania Farinon hoop Von Mises stress as function of radial interference after cool-down

10 Stefania Farinon Mechanical tests

11 Stefania Farinon Mechanical tests @ 300 K Al stabilizer @ 300 K

12 Stefania Farinon hoop stress as function of radial interference after cool-down

13 Stefania Farinon Von Mises stress as function of radial interference after cool-down

14 Stefania Farinon stress in cylinder (no flanges) as function of radial interference after cool-down

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