RM-3WE (THREE WAY)
ACCELEROMETER
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GENERAL
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The
RM-3WE accelerometer measures and permanently records, for period of 30, 60,
and 90 days,
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the magnitude, time of shock (impact) and vibration on three
axis: vertical, lateral, longitudinal.
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The RM-3WE may be used interchangeably to monitor all modes of
transportation and record handling
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errors. It is an excellent accelerometer
for laboratory testing.
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The RM-3WE records directly in G forces and will indicate not
only from which axis the force occurred but also
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from which direction on that axis: left side or right side,
front or back, and top or bottom (acceleration and
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deceleration).
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The
electric chart drive mechanism allows the accelerometer to record the time,
within an accuracy of
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0.5 sec.
per day.
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Damping, other than friction (coulomb damping) must be used in
mechanical accelerometers where accurate
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acceleration measurement is
required and where input frequencies cannot be controlled.
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One example of this is monitoring rail car movement while the accelerometer
is mounted directly to the car
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itself.
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Basically,
pneumatic damping controls the performance of the accelerometer on a definite
65% of critical
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damping curve will not experience resonant build-up. A friction
damped unit performs on a 0.1% of critical
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damping and a resonant build-up resulting in an infinite error,
is possible.
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APPLICATIONS
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RAIL & TRUCK
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Records
magnitude, time of occurrence of all in-transit impacts and vibration as well
as the total running and
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down time of each trip.
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Lateral (X) Axis records the amount of rough motion from side to side.
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Longitudinal (Y) Axis records the forces involved during coupling (switching),
sudden starts and stops,
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“slack action”, and the condition of the draft gears.
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Vertical (Z) Axis records the amount of up and down oscillation and shock
that the vehicle or lading
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experiences. This is an important aspect of interpreting potential
damage.
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Lading
can theoretically leave the floor of a vehicle at any reading in excess of
-1G.
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X-Y-Z: the records of the three axis will indicate a combination of good or
bad data, the condition of
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the
vehicle suspension system, excessive speeds, excessive deflection in
structural systems, and the
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total overall quality of vehicle handling.
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PRODUCT HANDLING
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Records
the quality of, or lack of product handling, either manual or mechanical.
When the accelerometer,
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set at a
comparatively low G level, is placed within a package, it will indicate which
side or end the package
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was dropped and when it was dropped in this position. This
is helpful in determining whether or not
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instructions such as “this end up” are being followed.
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All
records may be vectored in order to determine exact magnitude and direction
of shocks to packages.
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Approximate
drop heights may be determined by duplicating accelerometer records in the
laboratory.
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LABORATORY
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To
correlate actual damage occurring in-transit with similar lading damage as it
is reproduced on the conbur
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tester, the vibration (shake table) tester and by drop tests. The
instrument records the degree of severity
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of package testing and thereby allows repeated test to be run on an
equally severe and controlled basis.
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GENERAL
SPECIFICATIONS
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Each
accelerometer is manufactured to customer specifications. This is done by
offering standard units with a
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selection
of G ranges from plus or minus 2G to plus or minus 50G for each axis, chart
speeds of 3/8” per hour
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(90
day), ¾” per hour (60 day), 1-1/2” per hour (30 day), 3” per hour (14 day),
and 6” per hour (7 day),
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faster chart speeds are available upon request.
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