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6.8 Tesla Horizontal Field Cryomagnet MA7
The horizontal high field cryomagnet has a restricted neutron access.
There are 4 windows of 45 deg each, valid for a sample of 15 mm diameter.
For access with polarized neutrons, an asymmetric mode (max. 6.2 Tesla)
is available. This is needed when a beam perpendicular to the field is used.
This cryomagnet has strong stray fields due
to the size of its coils. Before it may be used on any instrument, force
tests have to be done. The specifications allow forces up to 1000 N
vertically and 500 N horizontally.
MA7 Restrictions
Restrictions on RITA-II
Provisional force measuremnents on RITA-II have shown that
the operation of MA7 on Rita-II is allowed:
- between 3.0 and 18.0 meV (a2 >= 37 deg) at a distance of 450 mm or more, up to 4 Tesla
- between 3.0 and 8.0 meV (a2 >= 56 deg) at a distance of 450 mm or more, up to 4.4 Tesla
- between 3.0 and 8.0 meV (a2 >= 56 deg) at a distance of 540 mm or more, up to 5.5 Tesla (we had a quench at 6 Tesla!)
For any other configuration force tests have to be done.
As soon as the appropriate adapter plate is avaliable, we should
repeat the force measurements.
MA7 Original Data
How the distance has to be measured.
In this example the distance is around 400 mm.
Restrictions on AMOR
Provisional force measuremnents on AMOR have shown that
the operation of MA7 on AMOR is allowed with a field perpendicular
to the beam at least up to 4 Tesla.
The distance to the shielding wall between AMOR and SANS-II has
to be at least 540 mm, measured from the aluminium window
(or about 870 mm to the magnet centre).
Torque Calculations
In general, the forces are not only radial, but also tangential,
inducing a torque onto the magnet. For estimating the forces
on the fixation, we need to take into account the distance of
the fixation points from the coil center.
For MA7, with a mean coil radius of about 100 m and fixation points
at about 150 mm for the coil center, we get the following:
Ro: object distance (mm)
phi: angle (deg) between field direction and direction of object, for maximum force on fixation
Fp: force when object on magnet axis (in field direction)
Ft: maximum total force on fixation
Ro | phi | Ft / Fp |
<600 | 0 | 1.0 |
800 | 20 | 1.04 |
1000 | 27 | 1.13 |
1200 | 32 | 1.25 |
For the distance to the shielding wall we have to add 1/5 of the edge
distance for the mean distance of the material that has to be taken
into account (870 * 6/5 = 1044 mm).
Measured force at 3.4 Tesla: 180 N.
Extrapolated to 5 Tesla: 390 N.
Factor 1.2 for including torque: 470 N.
With a reasonable security margin, we allow to go up to 4 Tesla.
Restrictions on TASP
A2 | distance sample - monochromator shielding surface | Allowed field |
-90 < A2 < -41 (Ei=14.7 meV) | >=122 cm | 3.3 Tesla |
-90 < A2 < -56 (Ei=8 meV) | >=108 cm | 4 Tesla |
-90 < A2 < -82 (Ei=4.1 meV) | >=108 cm | 5 Tesla |
Restrictions on SANS
Allowed up to maximum field independend of the field direction.
Force measurements:
field direction | field | horizontal force | vertical force |
parallel to beam | 4.9 Tesla | 80 N | 340 N |
perpendicular to beam | 4.9 Tesla | 110 N | 180 N |
Attachments:
asysym.jpg
MA7pict.jpg
MA7coils.png
P3010088.JPG
This particular version was published on 09-Jun-2011 09:19:15 UTC by MarkusZolliker.
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