Title: Design Aspects and Fabrication Techniques
1Design Aspects and Fabrication Techniques
- Aluminum versus stainless steel
- Stainless will avoid oxidation patch breakdown at
high rate?gain - No affordable surface treatment
- We should procure a hot Ruthenium source to test
aluminum at high rate. - Still concerned about Alum in light of Errede
Lyons experience - Could contemplate thinner walls to save on weight
and material costs - Thin walled stainless much tougher to retro
machine. - Choice of wire diameter
- 90 ? dia wire was choice of SDC since easier to
string (more visible) - Because of tension-area scaling, dia irrelevant
to gravity sag and EM stability - Appears that no wire support will be necessary
- Higher diameter means higher voltage (Harder to
distribute and avoid corona) - Larger diameter means a steeper log(gain) versus
V/VT curve - More critical operation according to Sauli
- Suggest 25 ? - 50 ? dia. Gold plated tungsten?
Thin may be more sensitive to mechanical
tolerance , shipping vibrations etc, and harder
to crimp.
2Multi-tube extrusions versus single tube arrays
- It is not obvious to us which is easier to
implement given apparent problems with extrusion
venders making thin walled rectangular tubes. - As walls thicken, maintaining constant wire pitch
between butted planks gets increasingly
difficult. - The option of 2? webs and 1? outer walls may be
difficult owing to differential cooling of
extrusion. - This leaves us with the differential gas volume
option. - An open, Ioracci comb design would be very easy
to implement if we could get it to work and
survive the cracks necessary to maintain a gas
seal. - There are mechanical advantages to a round tube
close pack if we can survive the packing
fraction dead space and inefficiencies near the
cell walls since we have only space for two
layers per view. - Mounting round tubes should not be a problem with
CNC endplates. - Gluing a set of rectangular tubes together may
also be a viable option. - A closed, rectangular extrusion still seems an
open issue to us, but this is the concept we have
been working on.
3Thoughts on gas flow
We believe that a parallel gas flow arrangement
between two reservoirs may be the most effective
and simplest distribution method. A series
method may be possible as well but requires more
fittings and we dont see advantage to it.
4Thoughts on End Cap design
- The end cap which holds the wires also acts as
the gas manifold. - Manifold is in a channel below pins.
- End cap injection molded plastic with several
pulls to create cavities - Actual brass crimp pin is held in by a delrin
insert to avoid charge buildup - Rounded edges avoid corona
- Free space above the pins to mount electronics
- Placement of gas inlet is a concern.
- Try to avoid arcing by getting too close to wire
or brass pin.
- If the end cap must serve a double layer of
tubes, price will increase significantly, if
possible at all. We also lose ability to stagger
units in along wire direction for gas inlets.
5Stringing techniques (Closed Extrusions)
- End caps glued in but two pin holders not
inserted. - Thread wire through spool end pin. Attach wire
to clip. Drop slug taped to wire through dowel
hole. - Pull to pulley with magnet and exit dowel hole.
- Thread through brass crimping pin on pulley end
and press fit both dowels into end caps. - Run full length of clean wire through both brass
pins to avoid dirt and kinks. - Crimp at spool end
- Tension from pulley using a weight.
- Crimp pulley end.
- Slide pulley, spool to adjacent cell.
- Repeat as needed. (67,000 times!)
Simultaneous stringing?? Probably not worth
effort of special jigs etc.
6Beam test prototype?
- Full injection molded end cap seems too ambitious
for early summer 99 run. - May involve significant lead times as well.
- Machined prototype with gas channels too
difficult for more than 10 planks - Propose using single tube plugs with gas fittings
for serial gas flow - Labor intensive due to individual gas fitting.
- A good solution for 100 tubes prototype but not
67,000 production run - Could be jobbed out to CNC machine shop for less
than 2 per unit.
Down side is we wouldnt be testing actual
detector.