TDI Beam screen issue
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Transcript of TDI Beam screen issue
LMC, 18/1/2012
TDI BEAM SCREEN ISSUE
Acknoledgements
B. Salvant, G. Arduini, M. Giovannozzi, O. Aberle, F. Loprete, A. Masi, M. Di Castro, S. Sgobba, the Vacuum group…
Facts
Throughout 2011 the following has been observed on the two TDIs: Abnormal heating of the extremities Higher Impedance than what anticipated
from simulations (and previous measurements?)
Instability of the position measurements by more than 100 microns
Aperture limitations in Point 2 ? (in the region between TCTVB and TDI) but not precisely localised
Facts
Last Thursday, during an inspection of the TDI.4L2 to verify the status of the Ti coating of the hBN blocks, a relevant deformation of the beam screen has been observed
TDI.4L2 from downstream
The beam screen around the jaw is lowered by about 1 cm.
No other macroscopic defect visible
TDI.4R8 (from upstream)
The beam screen is lowered by 16 mm
There is a bump at the level of the third hBN block
The Bump, lower part of the screen
25 mm
~38 mm
The Bump, higher part of the screen
~15 mm
Further facts
The material of the beam screen is Copper Due to the porous material of the jaw, a
long bake-out (several days) is necessary After bakeout in surface (even 3 months)
no deformation was observed. The first TDI installed in P8, after several
bakeout cycles and the short operation of 2008 has been dismantled. The beam screen had no visible deformation.
What might have happened
The beam screen copper has become extremely soft after bake-out. Due to the fact that there is a lever arm of ~0.7 m (weight is carried only by the RF fingers), the extremity of the screen is lowered by creep under the effect of gravity.
From the LHC Design report:
The jaw
The Bump, lower part of the screen
What might have happened
The incident with 36 bunches lost on the jaw may have released stresses in the beam screen and deformed the softened copper.
What we can do now
Unfortunately nothing in situ. We have all the materials to build one spare, and some
parts for a second one They were put in stand-by to wait for the result of the
investigation on impedance and anomalous heating. We need (optimistically) 6 weeks to assemble the first We then need to bake it out in surface
(3 to 4 weeks) before installation. It means ready for installation end of March at the earliest
Installation, including bake-out in situ takes again 3 to 4 weeks.
The second can be ready at the end of the year (some critical materials to be procured, need ~6 months for that)
What we can do now
The two TDIs are symmetric, therefore not identical.
It looks like the priority is TDI.4R8, so we will prepare the first spare for that. Once done, we cannot use it for TDI.4L2.
We investigate (with MME), for a beam screen in stainless steel. We shall mount it already in the first spare for 4R8 (schedule for production and feasibility to be confirmed).
Open question: new bakout
We need now to bake out again to reach a good vacuum level. Will the bakeout worsen the situation?
The risk is to accelerate creep and therefore bending of the extremity of the screen.
Creep velocity, depending of the type of copper, is 3 to 10 times higher at 170 C wrt 120 C.
So lowering the bake-out temperature will certainly help.
Will the screen correctly slide to accommodate for the thermal expansion or deform more?
Central support of the screen
The Bump, lower part of the screen
Open question: new bakout
Also, stresses are now certainly stored into the material, will we release them and deform more?
Bakeout is a risk, keeping the temperature low helps, is this possible?
Conclusions
Need to decide on: Bakeout yes or no? At what temperature and for how long?
1 spare only can be prepared by end of march TDI.4R8 is the worse, so we prepare the
spare for it TDI.4L2: spare available for LS1.
Will replace copper beam screen with copper plated stainless steel
Spare slides
Position Instability
TDI.4R8 Drift observed on TDI.4R8 on axes Left
Upstream and Left downstream on 17 June 2011
Deformation of the jaw?
LVDT Modification TDI.4R2 for jaw deformation study
TDI.4R2
Previous situation
After intervention during last TS: The LVDT 2 has been moved in a measurement point symmetric with respect to the motorization axis along the jaw. A jaw deformation should give an opposite drift on the two LVDTs if the drift is caused by a real jaw deformation
Modification of LVDT holding supports on TDI.4L2 and TDI.4R8 (TS Nov 2011)
8 Dec 2011 9 Dec 2011 10 Dec 2011
15 um drift on TDI.4R8 Right Upstream LVDTs Temperature Variation : 0.5 oC
29 Nov 2011, 07:00 30 Nov 2011, 03:00 30 Nov 2011, 18:00
10 um drift on TDI.4R8 Left Upstream LVDTs Temperature Variation : 0.2 oC