DFBX Fabrication Activity at LBNL

1. DFBX Fabrication Activity at LBNL Jon Zbasnik LBNL RFP Review

2. Contents of Presentation • Present the Items to be fabricated at LBNL • Bus Duct Assemblies • Beam Tube Assemblies • Instrumentation Duct Assemblies • For each Item will address • Requirements • Readiness Summary • Fabrication/Acceptance Outline RFP Review

3. Items to be fabricated at LBNL • Bus Duct Assemblies • 8 each MQX, LBNL Dwg 25M857 • 4 each MBX1, LBNL Dwg 25M859 • Beam Tube Assemblies • 4 span Q3 to cold D1, LBNL Dwg 25I855 • 4 span Q3 to CERN Cold to Warm Transition • Instrumentation Bus assemblies • 8 each MQX2 (100 wires), LBNL Dwg. 25I301 • 4 each MBX2 (22 wires), LBNL Dwg. 25I219 RFP Review

4. Bus Duct Requirements (1) • Current Rating for MQX1 • 4 each 7500 A busses • 24 each “600 A” busses • Current Rating for MBX1 • 2 each 7500 A busses • Voltage Rating • 7500 A busses 1500 Vdc in STP helium, 5 kV in air • 600 A busses 600 Vdc in STP helium, 2.5 kV in air • Voltage is applied to single bus with all others at ground • Leakage current less than 20 x 10-6 A after 1 min at voltage RFP Review

5. Bus Duct Requirements (2) • Leak Rate across Lambda Plug • Less than 0.1 atm cc/sec (helium) at room temperature • measured at a pressure differential of 0.7 atm or more • 20 bar pressure rating on magnet side • 3.5 bar pressure rating on DFBX side • Operational Requirements • Leak Rate satisfied after 50 thermal cycles (verified in R&D) • Leak Rate satisfied after 25 pressure pulses to 20 bar (verified in R&D) • Bus bars must be stable and safe against quenching • Use FNAL-developed main quadrupole busses • Use CERN corrector bus wire, also used by FNAL in the inner triplets RFP Review

6. MQX1 Bus Duct Assembly • Configuration delivered to Vendor is shown • Protective Pipe (yellow) over DFBX Conductors • O-ring seal to lambda flange • Pumping/Test Port • Orange Piping Connects to Q3 • Helicoflex seal on Stub • Endcap on bellows • Bellows restraint • Pumping/Test Port • Tooling Ball Feature RFP Review

7. Bus Assembly Fabrication Readiness • Lambda Plug R&D (with short conductors) is complete • R&D Plugs meet requirements • Design is finalized and verified • Plug potting process is finalized and gives stable results • Closeout and installation welding was simulated • Approved in 4 Sept 2002 review at LBNL • Preliminary fabrication plan is outlined • Development of fixtures to handle long conductors will start in November • Final detail design is underway • Fabrication start is dependent on insulated corrector bus RFP Review

8. Lambda Plug R&D Results • Notes: • a. An excessive amount (1000 g) of epoxy was mixed and the exothermic heat generated caused the epoxy to harden before the plug was filled. • b. No change in leak rate due to welding. • c. We have evidence that the leak rate increased upon welding. We will check this carefully in PG-6d. • d.Thermal cycling is done by plunging the assembly into a bath of LN2 , held for 1 hr, then pulled out and warmed in air for 1 hour, etc. • e. Breakdown is not between nearest neighbors, so it may be due to the test setup. We are checking this. RFP Review

9. Bus Duct Fabrication Plan (1) • Outline is presented in the review’s URL • Potting of long conductors into the stainless steel flange will be done by Supercon techs • They developed the process details • They demonstrated that the process was stable in the R&D program RFP Review

10. Bus Duct Fabrication Plan (2) • The Bus Duct will be completed by Techs in the B 77 area • They have performed all welding in the successful R&D program • They have performed all leak and pressure testing in the R&D program • Performed hipot testing for other programs • Detailed procedures and fixtures to be worked out in Nov/Dec • We anticipate that only orbital welds will be needed RFP Review

11. Bus Duct Acceptance Testing • Thermally cycle bus duct 2 to 5 times to LN temp • Pressure Test magnet side to 370 psig ( warm & cold) • leak rate through lambda plug less than 0.1 atm cc/sec (helium) • (both directions) • Leak check magnet piping, • leak rate to be less than 1 x 10-9 std cc/sec (helium) • Hipot test • 5 kV dc (air), with less than 20 microamps leakage after 1 minute • 2 kV dc (helium on magnet side), with less than 20 microamps leakage • Dimensions are within tolerance • Conductors are properly labeled RFP Review

12. Bus Duct Production Schedule • Supply of Corrector Bus is on Critical Path • Other parts are readily available • Cable conductors are at FNAL • Bellows on hand at FNAL • G-10CR Insulator Blocks are machined • Weldneck flanges are on hand, 2 more need to be ordered • Elbows are standard, some on hand • Pipe sections readily available • Helicoflex seals and clamps need to be ordered • LBNL Manpower is available to do the job RFP Review

13. Beam Tube Requirements • Bore to be cleaned per LBNL UHV Cleaning Spec • Cooling jacket around the bore to keep the temp less than 3 K • Bore tube inner diameter greater than 74 mm • Design Pressure of Cooling Jacket 20 bar • Design Pressure of Bore Tube 5 bar • Leak rate of Jacket to Insulation Vacuum < 1 x 10-9 std cc/sec • Leak rate to Bore Tube < 1 x 10-10 std cc/sec with the Jacket at 25 bar Helium Pressure RFP Review

14. Beam Tube Fabrication Readiness • No R&D needed • Final Design is Complete • Preliminary Fabrication Plan Outlined (see Review URL) • Acceptance Tests Outlined • 316LN Bore tubes to be delivered by CERN via BNL RFP Review

15. Beam Tube Fabrication/Acceptance Plan • All operations to be done in B 77 Area • Fabrication Steps outlined in Review URL • No show stoppers seen • Acceptance Testing • 2 to 5 thermal cycles of weld regions • Pressure test Jacket to 370 psig • Pressure test Bore to 75 psig • Jacket Leak Rate < 1 x 10-9 std cc/sec (helium) • Bore Tube Leak Rate < 1 x 10-10 std cc/sec (helium) with Jacket at 370 psig • Dimensions within tolerance • Shipped to DFBX Vendor under 3 psig N2 Pressure RFP Review

16. Instrumentation Duct Requirements • Provide wires for magnet cold mass instrumentation • MQX2 requires 100 good wires • 32 each 30 AWG for low voltage sensors, 600 V dc rating • 36 each 26 AWG for voltage taps, 5 kV dc rating • 32 each 18 AWG for heaters, 5 kV dc rating • MBX2 requires 22 good wires • 8 each 30 AWG for low voltage sensors, 600 V dc rating • 6 each 26 AWG for voltage taps, 5 kV dc rating • 8 each 18 AWG for heaters, 5 kV dc rating • Low heat leak to Superfluid bath • Pressure rating of 20 bar • Leak rate to insulation vacuum < 1 x 10-9 std cc/sec • Provide for thermal contraction of about 30 mm RFP Review

17. Instrumentation Duct Fabrication Readiness • Final Design is complete • Development work is being done by FNAL • Strawman fabrication steps are outlined in Review URL • Work to be done in the B 77 area RFP Review

18. Instrumentation Duct Acceptance • Dimensions within tolerance • Welds thermal shocked to LN 2 to 5 times • Pressure tested to 370 psig • Leak tight to < 1 x 10-9 stc cc/sec • Suitable number of wires are installed • Give proper void fraction inside the conduit • For MQX2, the Hypertronics connector on the magnet side is loaded • Stripped ends on the magnet side of MBX2 • Continuity check passed • Hipot test passed • Wires on DFBX side are labeled per wiring diagrams RFP Review

19. Conclusions • We have completed the R&D on the Lambda Plug and are ready to commence work on incorporating this in Bus Duct Assemblies for the DFBX • Schedule may be impacted by delivery of insulated corrector bus - we can use assistance from the USLHC-PMO in getting the bus delivered in Dec 2002 • Beam Tube Fabrication is ready to begin • Instrumentation Bus can commence after FNAL has completed the necessary development work • We expect to deliver the LBNL Items to the DFBX Vendor 2 months before they are needed RFP Review