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Progress of IR Vacuum Chambers

Progress of IR Vacuum Chambers. Chen Peng May 11,2007. Outline. Introduction Mechanical Process Reason for delay ------ BPM Welding Substitute Chamber Work Plan Summary. Introduction. Vacuum chambers in interaction region.

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Progress of IR Vacuum Chambers

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  1. Progress of IR Vacuum Chambers Chen Peng May 11,2007

  2. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  3. Introduction • Vacuum chambers in interaction region. The major chambers of IR are made of oxygen-free Copper.

  4. Rotatable receiver BPM’s feedthrough cable Cooling pipe RF-bellows SCQ Chamber The length of chamber is about 1.4 m. The chamberisdivided into 4 sections: front cylinder pipe with a BPM, bellows, tapered pipe and cylinder Pipe.

  5. Pump Cooling pipe Flange BPM Bellows Crotch Chamber • Its structure is complicated, on which 8 BPMs will be installed. • Pump pipe, cooling pipe and chamber have been brazed together.

  6. Cooling water inlet Cooling water outlet BPM Cooling water inlet Pump screens Cooling water outlet ISPB Chamber • This chamber is about 2.4 m long, with a complicated structure.

  7. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  8. Mechanical Process(1) • We assumed that the mechanical process was the most difficult part, however, the machining of vacuum chambers was done well and quickly, most of these chambers have been ready to welding.

  9. Mechanical Process(2)

  10. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  11. Reason for delay • The delay is mostly attributed to the welding process of BPM. • All the BPMs are made by Kyocera Company, the flange for welding is made of30 Ni-Cu (cupro-nickels). Flange BPM

  12. BPM Welding • The position of BPM on chambers BPM

  13. BPM EB-welding • At the first time, the vendor used electron beam for BPM welding test, but they couldn’t reach the ideal level. The leak rate was between 10X-4 and 10X-9mbar.l/s. Leak detection EBW test piece

  14. BPM EB-welding(1) • During the three months of Electron beam test, they adjusted the parameter of welding angle, depth of melt, etc; however, the figure still couldn’t rise to 10X-10mbar.l/s. Welding fixture Welding on test piece

  15. BPM EB-welding(2) • The vender considered that the flange material was inhomogeneous and the microelement(Mn&Fe) in material would affect welding process; therefore, electron beam couldn’t be welded well. The content of flange

  16. BPM EB-welding(2) • The vender considered that the flange material was inhomogeneous and the microelement(Mn&Fe) in material would affect welding process; therefore, electron beam couldn’t be welded well. The content of flange

  17. BPM Welding • According to the discussion with Kyocera technicians, the vendor knew that in the internal of BPM, the flange was brazed to ceramic at 780 degree (AgCu28). • They tried to braze BPM on oxygen free-copper at nearly 700 degree, so that they could protect the inner seam when BPM was welded. • And they come to an agreement with Kyocera technicians on this method. Pin (Ti) Inner seam Ceramic Flange BPM structure

  18. BPM Braze Welding(1) • The vender made some samples to approve it was feasible to braze,success rate was above 70%. Braze-welding test sample Leak detection

  19. BPM Braze Welding(2) • After being brazed, 2 BPMs’ seams leaked on the first one. • 4 BPMs’ seams leaked on the second one. BPM brazed on crotch chamber

  20. BPM Repair-Welding(1) • The vendor advised to repair-welding the first one with the same solder (AgCuIn15),which it was no beneficial to seams; and it broke another 2 seams in BPM. • There are only 4 BPMs working well in each crotch chamber. • The first one The second one Red is for bad BPM

  21. BPM Repair-Welding(1) • The vendor advised to repair-welding the first one with the same solder (AgCuIn15),which it was no beneficial to seams; and it broke another 2 seams in BPM. • There are only 4 BPMs working well in each crotch chamber. • The first one The second one Red is for bad BPM

  22. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  23. Substitute Chamber • In order to tune beam in storage ring in Nov 2006, we made a pair of substitutes for vacuum chamber in Sept. Stainless steel crotch chamber Substitute chamber

  24. Substitute Chamber • A stainless steel vacuum chamber was installed in interaction region in Oct, and now the chambers are working well. Installing the Substitute chamber

  25. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  26. BPM Repair-Welding(2) • The diameter of flange in BPM is 12.5mm, we will make a hole (ø16mm) on chamber. • We braze BPM to a ring (OD:ø16mm), brazing success rate is 75%. • We weld the ring and chamber with electron beam. ø16mm ring (oxygen-free copper) ø16mm BPM braze-welding test

  27. BPM Repair-Welding(2) • According to plenty of tests, we believe that the heat from electron beam has no effect on the brazing seam. • Presently, making holes on chamber is under way. Because the welding seams can’t be dealt with acid, keeping the chamber clean when machining the holes is very important. EBW

  28. Assembly Welding of Crotch Chamber After repair-welding of BPM, the crotch chamber will be welded with bellows. EBW

  29. Assembly Welding of SCQ Chamber • 8 pole BPM brazing test at front cylinder pipe has been done, and the braze technique is adopted. • Cylinder pipe and tapered pipe have been brazed together. • At the end of May, we will assembly weld these two parts together

  30. Assembly Welding of ISPB Chamber • Four sections have been completed. • We need to connect three sections in a string and then weld to the fourth one. • Multistage braze welding is very important, in order to maintain the strict tolerance required for installation through the magnets. • We obtained the experience by means of installing substitute chambers.

  31. Time Schedule • We spend more time on communicating with the vender, and update the progress schedule in time. • Our new schedule is as followed: • SCQ Chamber : 8 pole BPM welding, assembly welding (EBW) May 11 ~ June 5, 2007 • Crotch Chamber : BPM repair-welding, assembly welding (EBW) April 29 ~ May 28 2007 • ISPB Chamber : assembly welding (braze) June 3 ~ July 26, 2007

  32. Outline • Introduction • Mechanical Process • Reason for delay ------ BPM Welding • Substitute Chamber • Work Plan • Summary

  33. Summary • The mechanical process is almost completed. The manufacture of holes(ø16mm) on crotch chambers is ongoing. • Repair-welding of BPM is a hard project, and should be done step by step, so that we can minimize the risk of damage. • The IR substitute has been installed in the tunnel and works well. • Assembly welding will be began in June this year, and many technical problems will be confronted with, however, we have confidence in solving them ASAP.

  34. Thank you

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