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Status and plan for vacuum validation G. Cattenoz (TE-VSC-BVO) and C. Accettura (EN-MME-EDS)

Status and plan for vacuum validation G. Cattenoz (TE-VSC-BVO) and C. Accettura (EN-MME-EDS). Outline. Vacuum specifications for collimators Results overview of TCSPM Raw material studies Future plan. Vacuum specification. Vacuum requirements for LHC collimators : EDMS 428155

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Status and plan for vacuum validation G. Cattenoz (TE-VSC-BVO) and C. Accettura (EN-MME-EDS)

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  1. Status and plan for vacuum validationG. Cattenoz (TE-VSC-BVO) and C. Accettura (EN-MME-EDS) Special ColUSM: Material and design readiness for LS2 production

  2. Outline • Vacuum specifications for collimators • Results overview of TCSPM • Raw material studies • Future plan Special ColUSM: Material and design readiness for LS2 production

  3. Vacuum specification • Vacuum requirements for LHC collimators: EDMS 428155 • Performance: • Bakeable to 250°C for 24h00 • Total outgassing rate ~ 1.10-7mbar.l/s • Clean: no traces of hydrocarbons, organic and inorganic residues (Residual Gas Analysis) • Externalyleak tight : global helium leak rate < 10-10 mbar.l/s • Materialoutgassing rate < 10-12mbar.l/(s.cm2) i.e. furnacetreatment at 950°C under vacuum (carbon, SS, ferrites …etc) • Bellows should be bakeable and leak tight after 4000 cycles • Construction and design: • Bake-out system: Permanent, remotely controlled and easily disconnected (reduce dose to personnel, ALARA) • Avoid: traped volumes + contact between large surfaces (internal virtual leakage) • Welds: Number and length minimised, no crossing, fully penetrating • In-situ access: • Easy access to potentially leaking components (reduce dose to personnel) e.g. bellows, feedtroughs • Quick release flange with Conflat knife design Special ColUSM: Material and design readiness for LS2 production

  4. Vacuum requirements for collimators Effective pumping speed of 20 l∙s (limited space/conductance of beam chambers) Achieve and maintain the required static pressure of 5∙10-9 mbar • LHC Long Straight Sections vacuum requirement: EDMS 339088 Total outgassing rate of one collimator should not exceed ≈ 1∙10-7mbar∙l/s In LHC: 1. Rely on NEG pumping for H2, CO and CO2 2. CH4 pumping  Ion Pumps For collimators: Increased local pumping speed with ion pump and NEG cartridge • Advantage: • Passive • Remotelycontrolled • Re-activable Q Q Q Q collimator NEG coating NEG coating S S VPI + NEG VPI + NEG Special ColUSM: Material and design readiness for LS2 production

  5. Vacuum requirements for collimators and test criteria H2 • Measure of residual gases partial pressures to control the presence of critical gases such as CH4, CO and CO2 Affect the saturation level of NEG coating CH4 CO CO2 Special ColUSM: Material and design readiness for LS2 production

  6. Collimator vacuum validation overview TCSPM w/o NEG Since LS1: 1 out of 8 is over acceptancelimit NEG installation 2.0E-07 Special ColUSM: Material and design readiness for LS2 production

  7. Gas analysis and outgassing of TCSPM prototype with NEG High mass contamination disappeared after 2nd bake out: surface contamination   All data are taken after 48h at RT after a full bake out cycle Special ColUSM: Material and design readiness for LS2 production

  8. TE-VSC vacuum acceptance test laboratory of b.113 Today’slayout Complete jaw assembly test Dedicated MoGr measurement Carlotta Complete TCDIL jaw assembly Jaw block/beam test Dedicated new material/development measurement Collimator final validation Materials outgassing 7 test benches out of 13 dedicated to collimation Special ColUSM: Material and design readiness for LS2 production

  9. Raw Materials Characterization Special ColUSM: Material and design readiness for LS2 production

  10. UHV characterization of Molybdenum Graphite - Production • 2 different grades were tested: Same initial composition of powders: %vol Mo=4.5 %vol Graphite=95.3 %vol Ti=0.2 Special ColUSM: Material and design readiness for LS2 production

  11. UHV characterization of MG6403Fc - as received samples • Outgassing test of different size samples:     N2+/CO+ CH4+ Thickness 6mm Ar+ Thickness 25mm COMPACTION • Different thickness • Different orientation • Different machining • Different production plate Special ColUSM: Material and design readiness for LS2 production

  12. UHV characterization of MG6403Fc - SEM observations • FIB (Focused Ion Beam) images of the 2 samples: • Compact bulk for both samples at 2÷5 μm from the surface • Difficult to see clear trend from the surface • Different outgassing behavior seems to be surface related Surface channels Surface damage Compact bulk 125x45x25 mm sample 70x25x6 mm sample Special ColUSM: Material and design readiness for LS2 production

  13. UHV characterization of MG6403Fc - Treated sample • Different vacuum tests are planned to check effect of all the treatments done on the prototype blocks: • Vacuum firing 2h, 950°C (standard procedure) • CO2 blasting • Mo/TiN coating Special ColUSM: Material and design readiness for LS2 production

  14. UHV characterization of MG6403Fc - Block Vacuum firing BEFORE AFTER • Vacuum firing effect: • Important CH4 content reduction • Decreasing of outgassing mainly related to CH4 reduction • No strong effect on air content Special ColUSM: Material and design readiness for LS2 production

  15. UHV characterization of MG6403Fc - Vacuum firing • Vacuum firing is needed to remove hydrocarbons, as confirmed by TDS: • The sequence of hydrocarbons mass found can be related to the oil of the pump used in post-sintering treatment • TDS of a sample after vacuum firing shows a decreasing of H2 content, not seen in the block: possibly need to increase VF duration to increase diffusion length → next test. Hydrocarbons before H2 Hydrocarbons after Special ColUSM: Material and design readiness for LS2 production

  16. UHV characterization of MG6403Fc - CO2 blasting N2+/CO+ N2++ CO2+ Ar+ After CO2 Before CO2 • Total outgassing rate increased: need to check microscopic structure to check if it is related to roughness or crack formation • Clear indication of CO2 implantation • Air content increased *Value for CO2 blasting test after 10h at TR Special ColUSM: Material and design readiness for LS2 production

  17. UHV characterization of MG6403 Machined: Fc vs He Old grade CH4+ New grade • No influence of the gas used to vent during production steps • Higher outgassing rate. But no methane contamination Special ColUSM: Material and design readiness for LS2 production

  18. UHV characterization of MG6403He: Machined vs Rectified Not machined • Block machined like the collimator block as a lower outgassing (factor ~3) • Rectified block has higher air and CO2 content Machined Special ColUSM: Material and design readiness for LS2 production

  19. UHV characterization of MG6403He- microscopic observations FIB (Focused Ion Beam) images of He sample with different machining • No evident differences in the bulk (both compact) Rectified: More surface damage? Machined block Rectified block Special ColUSM: Material and design readiness for LS2 production

  20. Outlook and future plan MG6403Fc block Outgassing over limit, air content dominant Vacuum firing • FIB observation Outgassing decreased, CH4 decreased but no benefit on air CO2 blasting Outgassing increased, CO2 implantation Longer vacuum firing (48h) Check effects of the total outgassing and H2 content Coating To check contribution of coating on a prototype block To check outgassing-roughness relation Special ColUSM: Material and design readiness for LS2 production

  21. Outlook and future plan MG6403He block machined Outgassing over limit, air content dominant US cleaning + VF To check other possible surface treatment Find out other possible NOT aggressive treatment (Ion polishing ?, ..) Special ColUSM: Material and design readiness for LS2 production

  22. Thank you for the attention! Special ColUSM: Material and design readiness for LS2 production

  23. TDS sample observation 2mm sample 1mm sample Special ColUSM: Material and design readiness for LS2 production

  24. TDS after vacuum firing Special ColUSM: Material and design readiness for LS2 production

  25. Outgassing trend Special ColUSM: Material and design readiness for LS2 production

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