cavity fabrication - uspasuspas.fnal.gov/materials/08umd/cavity_fabrication.pdf · cavity...
TRANSCRIPT
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CAVITY FABRICATION
Jean Delayen
Thomas Jefferson National Accelerator FacilityOld Dominion University
USPAS June 2008 U. Maryland
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Niobium
Niobium is the elemental superconductor with the highest critical temperature and the highest critical field
Formability like OFHC copperReadily available in different grades of purity (RRR > 250)
Can be further purified by UHV heat treatment or solid state getteringHigh affinity to interstitial impurities like H, C,N,O ( in air T < 150 C )Joining by electron beam weldingMetallurgy not so easyHydrogen can readily be absorbed and can lead to Q-degradation in
cavities
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NiobiumQuality/purity of niobium used for accelerator application is specified by the RRR ratioRRR = R(300)/[R(10) +S dRi/dCi ]
dRi/dCi are the contributions by interstitial impurities such as H,C,N,O and Ta
H: 0.8 x 10-10 Wcm/at ppmC: 4.3 x 10-10 Wcm/at ppmN: 5.2 x 10-10Wcm/at ppmO: 4.5 x 10-10 Wcm/at ppmTa: 0.25 x 10-10 Wcm/at ppm
K.Schulze,Journal of Metals, 33 (1981), p. 33ff
Typical specifications for impurities ( wt ppm)
H < 2C < 10N < 10O < 10Ta < 500
RRR > 250Grain size 50 mmYield strength > 50 MpaTensile strength > 100 MpaElongation > 30 %VH < 50Thermal conductivity at 4.2K
λ(4.2K) ~ RRR/4
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Niobium:Electron Beam Melting• High Purity Niobium(RRR>250) is made by multiple electron beam melting steps
under good vacuum, resulting in elimination of volatile impurities• There are several companies, which can produce RRR niobium in larger
quantities:Wah Chang (USA), Cabot (USA), W.C.Heraeus (Germany), Tokyo Denkai(Japan), Ningxia (China), CBMM (Brasil)
CBMM deposit in Araxa, Brasil
EBM furnace at Tokyo Denkai
EBM Ingots at CBMM
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Electron Beam Melting
1 Gun2 Electrode3 Vacuum Chamber4 Water Cooled Mold5 Retractable Ingot
[from H.R.S. Moura, “Melting andPurification of Niobium” ,p. 147 inProc. of Int. Symposium Niobium 2001]
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Niobium
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Niobium
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Niobium
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NiobiumInsufficient recrystallization,formability and mechanicalproperties are affected
Fully recrystallized material after appropriate heat treatment (after rolling operation)X. Singer, DESY
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NiobiumPost –Purification of niobium in presence of Ti as a solid state getter material
•During the purification process the interstitial impurities ( O,N,C) diffuse to the surface and react with the evaporated Ti atoms; Ti has a higher affinity to these impurities than Nb
O C
N
Ti
Fig. 1 Scheme of the Nb refining by high temperature gettering
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Niobium• Post-Purification Treatment (G.R.Myneni, Jlab)
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Cavity (9 Zeller)
Endhalbzell-Endrohr- Einheit
kurz
Endhalbzell-Endrohr- Einheit
lang
Flansch(Hauptkoppler-
Stutzen)
Flansch(Endflansch)
HOM-Kopplerkurze Seite
Rippe RippeAnbindung(end-kurz-lang)
Endhalbzellekurz
AntennenflanschNW 12
HOM-KopplerDESY
End-kurz-langFormteil F
Bordscheibelange Seite
Endhalbzellelang
Flansch(end-kurz-lang)
HOM-Kopplerlange Seite
Flansch(Endflansch)
Antennenstutzenlang
Endrohrlang
AntennenflanschNW 12
Formteil Flang
HOM-KopplerDESY
End-kurz-lang
Hauptkoppler-stutzen
Endrohrkurz
Cavity (9 cell TESLA /TTF design)
End group 1 End group 2Hantel
Normalhalb-Zelle
Normalhalb-Zelle
Stützring
Nb-BlechNormalhalelle
Nb-BlechNormalhalbzelle
Dumb-bell
Overview of Cavity Fabrication (TESLA)
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7. Welding of Iris 8. Welding of stiffening rings9. Mechanical measurement of dumb-bells10. Reshaping of dumb bell if needed11. Cleaning 12. Rf measurement of dumb-bell13. Trimming of dumb-bells ( Equator regions )14. Cleaning 15. Intermediate chemical etching ( BCP /20- 40 µm )+ Rinsing16. Visual Inspection of the inner surface of the dumb-belllocal grinding if needed + (second chemical treatment + inspection )
Dumb- bell
1. Mechanical measurement2. Cleaning (by ultra sonic [us] cleaning +rinsing)3. Trimming of iris region and reshaping of cups if needed4. Cleaning 5. Rf measurement of cups 6. Buffered chemical polishing + Rinsing (for welding of Iris)
Dumb-bell ready for cavity
Overview of Cavity Fabrication (TESLA)
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Overview of Cavity Fabrication (TESLA)
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Overview of Cavity Fabrication (TESLA)
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Overview of Cavity Fabrication (TESLA)
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Overview of Cavity Fabrication (KEK)
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Overview of Cavity Fabrication (KEK)
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Overview of Cavity Fabrication (KEK)
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Overview of Cavity Fabrication (KEK)
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Overview of Cavity Fabrication (KEK)
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Overview of Cavity Fabrication (JLab)
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Overview of Cavity Fabrication (JLab)
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Overview of Cavity Fabrication (JLab)
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Overview of Cavity Fabrication (JLab)
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Overview of Cavity Fabrication (JLab)
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Fabrication of Cups• Deep drawing or spinning• Measurement of contour• Better: measurement of frequency• Trimming length at iris and equator plane
– Consider welding shrinkage• Slight chemical cleaning for welding
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Fabrication of Cups
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Electron Beam Welding
• Welding under good vacuum, 10^-5 range
• Broad welding seam– Operate with defocussed beam– Smooth underbead
• Overlap at end of welding to avoid accumulation of impurities
• Wait to cool down before opening chamber
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Tuning (Electrical)
Frequency measurement of dumbbell
Frequency measurement of half cell
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Field Flatness TuningH.Padamsee et al;””RF Superconductivity for Accelerators”
Set-up for field profile measurements: a metallic needle is perturbing the rf fields while it is pulled through the cavity along its axis; the stored energy in each cell is recorded.
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Tuning (Mechanical)
Tuning system
Squeeze Δf < 0
Stretch Δf > 0
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Tuning (Mechanical)
Computerized tuning machine at DESY
•Equalizing stored energy in each cell
by squeezing or pulling
•Straightening of cavity
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Tuning code (Chen Yinghua, J. Sekutowicz, Wei Yixiang, DESY M-89-11)
• Frequency and field profile measurement of all the 6 modes of the TM010 pass-band
• Preparing an input file with frequency and field amplitudes at the center of the cells for each mode
• Running the tuning code developed by J. Sekutowicz based on a lumped-circuit model where only the coupling between neighboring cells is considered
• Obtaining the Δf to be applied to each cell to tune the cavity at the frequency requested
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Tuning:Example 5-cell TRASCO Cavity
As manufactured
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
6.00E+00
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
Tim e [s ]
Phas
e [d
eg]
"as received"
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
6.00E+00
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
Tim e [s ]
Phas
e [d
eg]
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
6.00E+00
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
Time [s]
Phas
e [d
eg]
tuned
-5.00E-01
0.00E+00
5.00E-01
1.00E+00
1.50E+00
2.00E+00
2.50E+00
3.00E+00
3.50E+00
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
Tim e [s]
Phas
e [d
eg]
π/5-mode 2π/5-mode 3π/5-mode 4π/5-mode
π-mode
Tuned
0
1
2
3
4
5
6
7
0 5 10 15 20 25 30
Time [s]
Phas
e [d
eg]
As received After tuning
FPC side
Pi/5 -mode, tuned
-2.00E+00
0.00E+00
2.00E+00
4.00E+00
6.00E+00
8.00E+00
1.00E+01
1.20E+01
1.40E+01
1.60E+01
1.80E+01
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
time[s]
Pha
se
Series1
2 pi/5 -mode, tuned
-2.00E+00
0.00E+00
2.00E+00
4.00E+00
6.00E+00
8.00E+00
1.00E+01
1.20E+01
1.40E+01
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
time [s]
Pha
se
3 pi/5 - mode, tuned
-2.00E+00
0.00E+00
2.00E+00
4.00E+00
6.00E+00
8.00E+00
1.00E+01
1.20E+01
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
time [s]
Pha
se
4 pi/5 - mode
-2.00E+00
0.00E+00
2.00E+00
4.00E+00
6.00E+00
8.00E+00
1.00E+01
1.20E+01
0.00E+00 5.00E+00 1.00E+01 1.50E+01 2.00E+01 2.50E+01 3.00E+01
time [s]
Pha
se
Series1
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Cavity Inspection
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Cavity Inspection
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External Chemistry
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Alternative Fabrication Techniques
Besides the “standard” cavity fabrication of producing niobium half cells and electron beam weld them into multi-cell cavities there exist alternative method:
• Spinning of multi-cells• Hydroforming of multi-cells• Use of composite material NbCu• Thin film coating of Cu cavities
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Hydroforming
Hydro forming (W.Singer,DESY)
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Hydroforming of a two-cell structure - H. Kaiser, W.Singer et al.
Hydroforming
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Hydroforming
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Hydroforming
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Spinning
Spinning (V.Palmieri,INFN Legnaro)
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Spinning
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Flow forming over a cylindrical mandrel with three work rollers allows to produce long and very precise tubes from thick walled cylindrical part.After optimization of several parameters shiny Nb surface and small wall thickness variations (less then +/-0,1 mm) have been achieved.
Tube Forming
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CBMM Niobium: large grain and single crystal
RRR value: ~300 Ta content: ~500 ppm
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Single crystal cavities
1E+09
1E+10
1E+11
0 5 10 15 20 25 30 35 40 45 50
Eacc (MV/m)
Q0
Scaled Low Loss shape
Scaled High Gradient shape
T = 2 K
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Single crystal cavitySingle Crystal DESY Cavity, Heraeus Niobium
112 micron bcp 1:1:2
1.00E+09
1.00E+10
1.00E+11
0 5 10 15 20 25 30 35 40
Eacc [MV/m]
Q0
T=1.99K, 6hrs at 120C bakedT=1.8K, 6 hrs at 120C baked" T = 2K, before baking"
Quench @ 37.5 MV/m
Q - drop
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Potential Benefits of Single Crystal Nb
• Reduced cost• Comparable performance of fine grain niobium• Very smooth surfaces with BCP, no EP necessary• Better cleaning (FE reduction?)• Elimination of Q-drop with short baking times• Less material QA (eddy current/squid scanning)• Possibly very low residual resistance
– Lower losses– Lower operating temperature
• Higher thermal stability (phonon peak)• Good or better mechanical performance
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Nb/Cu clad Material
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Nb/Cu clad Material
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Nb/Cu clad Material
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Nb/Cu clad Material
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Nb/Cu clad MaterialProblems
• Possibility of leaky welds because of Cu contamination• Nb/Cu cavities still quench,resulting in Q-degradations• Cooldown needs to be very uniform because of thermo – currents• Cooldown of cryomodules would need modification• Cracks sometimes appear in iris region during fabrication• No industrialization efforts yet
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Thin Niobium Films
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Niobium on Copper CavitiesFabrication
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Sputtering parameters for 1.5 GHz cavities
• Discharge current stabilized at 3 A.• Sputter gas pressure of 1.5x10-3 mbar,
corresponding to ~ 360 V.• Coating temperature is 150 °C.• Thickness: 1.5 µm
Film characteristics (same as for LEP):
• RRR: 11.5 ± 0.1• Argon content: 435 ± 70 ppm • Grain size: 110 ± 20 nm• Tc: 9.51 ± 0.01 K
Nb Sputtering
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Nb Sputtering
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Surface Structure of Nb/Cu
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Thin Niobium Films
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Performance of LEP Cavities
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109
1010
1011
0 5 10 15 20 25 30
Q0
(1.7
K)
Eacc [MV/m]
Electropolishedcavities
Coatings performed using krypton
Rinsed with upgraded HPWR
installation
Max RF power: 100W
Small cryostat:60l of liquid He
Some results at high field (1.5 GHz cavities)
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Cu Plasma-Sprayed on Nb
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Fabrication:1. Sequences need to be adopted to the company hardware2. Companies need to be trained an stay trained
learning curve to stable production 3. Control on subcontractors4. Dependency on major products of company training of personal
Experiences on cavity fabricationDeep drawing:
1. Reproducibility depends on tool design and tool materialspecification – investigation in tooling
2. Dependency on Nb supplier found 3. Different shape from ingot to ingot found (Hardness / grain size)
Better quality control + specification reproducibility
Measurements: 1. Rf measurement of cups / dumb bells Time consuming2. Mechanical measurements of sub units Time consuming
( F part HOM tube / flanges /dumb-bell 3 D measurement complex combination of mechanical and rf measurement possible ?
( 3 D imaging of units)