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QXF Cable Winding Test and End Parts Design

QXF Cable Winding Test and End Parts Design. Miao Yu Fermilab 11/15/2012. IL RE Pole Preliminary Design. Based on QXF cross-section design 3 BEND program Import the output (a group of points) of BEND to CAD software Create ruling lines and the surface, and then generate the parts.

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QXF Cable Winding Test and End Parts Design

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  1. QXF Cable Winding Test and End Parts Design Miao Yu Fermilab 11/15/2012

  2. IL RE Pole Preliminary Design Based on QXF cross-section design 3 BEND program Import the output (a group of points) of BEND to CAD software Create ruling lines and the surface, and then generate the parts

  3. QXF Cable Winding Test Setup L1 RE Pole Mandrel Spacer HQ/LHQ Winding Mandrel • Two IL RE pole pieces (rapid prototype) • Total winding length ~0.77m

  4. End Parts Design Plan Once the cross-section is chosen, Fermilab will design end parts using BEND. Fermilab and CERN will share the parameters. The parts will be fabricated by laser sintering. Practice coil will be fabricated (LQXF). The “BEND” end parts will be compared with the “ROXIE” end parts.

  5. Appendix: BEND input file for IL RE pole Input file for MQXF It.#1 Inner Coil R.E. group 1 (0/6) : Oct 12, 2012 3.698346457 !!!OD93.938mm 2.952755906 !!!!ID75mm 11.87476226728 !!!!outer starting angle 15.21818009212 !!!!initial edge angle 0.061712598 !!!!!cable mid-thickness1.5675mm 0.65 !!!!keystone angle 0.0 !!!rounding of corners of the cable 0 6 !!!!number of cables on each side 1 !!!!choose inside group A-length 0.984251968 !!!!!!A length 25mm N !!!do not choose the final edge angle of the guiding strip 10 !!!estimated final edge angle !!!A Length Final edge angle !!18mm 12.99 !!25mm 10.13

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