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F. Borgnolutti January 17 th 2013 Proposal for a winding test procedure for qualifying the QXF cable.

Published byKerry Horton Modified over 8 years ago

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Presentation on theme: "F. Borgnolutti January 17 th 2013 Proposal for a winding test procedure for qualifying the QXF cable."— Presentation transcript:

1 F. Borgnolutti January 17 th 2013 Proposal for a winding test procedure for qualifying the QXF cable

2 Status of the winding tests at LBNL Status of the winding test at LBL: QXF cable: All the QXF prototype cables with a core had popped strand when wound in the unfavorable winding direction. The pole piece is not optimized, we will soon get the pole piece designed by FNAL 3D printed. Experience with HQ cable: In HQ coils made with cored cable we always have pop strands in the first turn of L2 (unfavorable winding direction).  We always managed to prevent the strand from popping out by using the small tool designed by LBL technicians. In the favorable winding direction (L1), usually easy popped strands in the 1 st turn. Evidence of cable handling impact on the cable mechanical stability (cable tested before and after being insulated) 21/17/2013

3 Assessment of the cable mechanical stability Reference pole piece design (MQXF3_V0) LBNL CERN FNAL # pole piece length between labs (0.4 m at Cern) Cable evaluation test: -Winding direction -Winding tension -Evaluation of the cable -FNAL mech. stability test Anti-clockwise HQ first turn = 20 lb  Scale up for the QXF gives 27 lb Comparison of the results between the labs How to capture all these information? Rapid prototyping Same pole piece design (Std. pole piece, not necessary the final one):  MQXF3_V0 designed with bend (FNAL)  MQXF3_V0 designed with roxie (Cern)  So far LBNL has been using a scale up of HQ (FNAL design is being fabricated, we will re-test the cables with this one) Parts are similar Uses LBNL score sheet as starting point Qualification of the cable 31/17/2013 cable Quantify the mechanical stability of the cable Other parameters: Sieze of the facets, strand deformation, …. Roping tension measurement Uses LBNL score sheet as starting point

4 Wind-ability score sheet 41/17/2013 Cable Windability Check List Parameter For Left Pitch Cables Only 1) Location of Initial popped strand Quadrant (Entry-A, B, C, Exit-D) Winding Direction 2) Popped Strand Location (Inside or Outside) of Cable Favorable Un-Favorable 3) How Many Popped Strands Involved 1,2,3… 4) Popped Strand Ease of Replacement (1…5)1 = Goes in easy and stays in place 2 = Goes in easy needs handling to stay in place 3 = Goes in easy Won't Stay in place 5) Score = SUM of (3,4)4 = Difficult to go in Wont Stay in place 6) Photo documentation5 = Won't to together. 1)2)3)4)5)6) Date Winding Table OperatorCable IdPole ID Favorable Unfavorable Direction Winding Tension Turn L1, R1, L2,R2... Location Quad A,B,C,DIn/Outside Number of Strands 1,2,3 Ease of Replacement 1..5 Score (SUM) Photo # 11/1/2012JHS1038-Y1QXF-0 plasticUn15R1AInside12 DSC09567.JPG 1.25x HQ BIn & Out12 DSC09568.JPG Layer-1 CIn & Out23 DSC09569.JPG DIn & Out24 17 DSC09570.JPG 11/26/2012NL-HH1038-Y1QXF-0 plasticUn25L1A000 4176 1.25x HQ B000 4178 Layer-1 WINDING BLOCK USED C000 D000 0 4184 11/26/2012NL-HH1038-Y1QXF-0 plasticUn25R1A000 4187 1.25x HQ B000 4188 Layer-1 WINDING BLOCK USED C0004190 D000 0 4192

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