Especificaciones::
IQM-Meter™
The
James IQM System enables fresh
concrete to be easily and completely monitored in the field for improved
safety, quality assurance and optimum setting time.
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Premature Form Stripping in cold weather
can be avoided.
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Excessive summer heat
exposure is controlled.
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Loading, prestressing
or post tensioning as well as lifting and/or form removal can be
performed safely
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Optimum
scheduling of form removal, prestressing, post tensioning, and highway
loading.
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Artificial heating and cooling of
concrete is minimized
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Rework due to concrete
not fully cured is reduced.
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Modular design facilitates optimum number
of monitoring locations.
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A visual indicator shows field personnel
that the required maturity is reached at each location.
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Construction personnel with minimal
training can easily implement monitoring function.
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Multiple use thermocouple sensor
lowers costs.
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Documented quality control of each pour.
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Faster and safer form stripping.
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ASTM C-1074 & ASTM C-918
Designed specifically for monitoring and
analyzing fresh concrete, the
IQM™ Module is programmed with the required
Equivalent Age of the concrete under test. Once this preset maturity
number is reached, a visual indicator will flash continuously, providing
an effective, automatic indication that the concrete has reached the
desired level of maturity.
Software and
interface cable allow direct
uploading of the data to a Windows PC environment where it can be
imported into any spreadsheet, word processor or graphing program for
further analysis. Temperature history can be graphically displayed with
respect to time.
The IQM™ software will create
maturity indices from the complex
Arrhenius equation according to ASTM procedure. The strength gain can
be calculated and all these parameters can be graphically displayed with
respect to time. The
James IQM System™ enables fresh concrete to be
easily and completely monitored in the field for improved safety,
quality and optimum stripping time. Its modular design facilitates
number and choice of monitoring locations.
The system generally consists of multiple units of M-IQM-4011
units on the structure logging the temperature and programmed with the
proper activation energies. These monitor the critical and most
temperature sensitive area's of the structure. Each unit is connected
to a single thermocouple (M-IQT-4011). The units are then programmed
with the
M-IQM-4040 software and a P.C.. Once the concrete has reached
the proper cure point the temperature time history can be retrieved with
the software (
M-IQM-4040). This makes the IQM System™ flexible to
accomodate a single location or multiple locations on a structure.
Typical
Application
A multi
level concrete building is under design and its construction is to be
controlled with the
IQM-Meter™ to meet performance specifications.
Laboratory tests indicate that the
concrete specified is of satisfactory quality. The maturity vs. strength
relationship obtained during laboratory tests is shown in the figure
below.
The
structural engineer has specified that the slab forms can be removed
when the concrete has reached a minimum strength 3500 PSI. To allow for
unanticipated variations in the concrete properties, the contractor has
decided that he will remove the forms when the concrete strength is at
least 5% greater than the required 3500 PSI, i.e., when strength is 3675
PSI. The figure below shows that this strength level will be reached
when the maturity is 59 Hrs.
The IQM-Meter™ thermocouples, therefore
should be inserted in the freshly placed concrete at critical locations.
The modules should be programmed with an equivalent age of 59 hours.
Once the light on the last meter starts flashing, maturity value has
reached 59 hours and the forms can be removed.
The IQM System
The temperature history is recorded by the IQM-4010 K
Thermocouple Module, which can store over eight thousand temperature
readings. Intervals between readings are specified by the user and can
vary from one minute to twenty-four hours. Designed with the latest in
microcomputer technology, the module is rugged enough for the harshest
construction environments.
The
module is programmed with the required Equivalent Age of the concrete
under test. The red light on the module will flash continuously once
this number has been reached. This provides a simple and effective
automatic indication that the concrete has reached the desired level of
maturity at that location.
Generally,
sensors are inserted at critical points subject to the most extreme
temperatures. Using the modular
IQM-Meter™ System, there is no limit to
the number of sensors that can be embedded in the wet concrete. The
sensor giving the lowest maturity number indicates the area with the
lowest strength, and this sensor will be the last to signal that the
desired maturity has been reached.
The economical M-IQM-4040 PC Software and
cable interface allow direct uploading of the data to a Windows
environment P.C. The data, then, can be easily imported into any
spreadsheet, word processor, or graphing software package for further
analysis. Temperature history can also be graphically displayed with
respect to time. The
IQM™ software will create maturity indices from the
more complex Arrhenius equation according to ASTM procedure. Strength
gain can also be calculated via accepted methods. All of these
parameters can be graphically displayed with respect to time.
Theory
The maturity
method is a technique for predicting strength based on the temperature
history of the concrete. The extent of the cement hydration depends on
how long the concrete has cured and at what temperature. Maturity is a
measure of how far the hydration has progressed.
The equation developed by Arrhenius
allows for greater variation in cement types. It assumes a non-linear
relationship for the determination of a maturity index and is suitable
for a wide range of temperatures. The mathematics of the Arrhenius
equation is more complex but it gives more accurate strength predictions
over a variety of cement types. The maturity index is expressed as
equivalent age in hours referred to a specific temperature, and is a
function of time, temperature and the activation energy of the cement.
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MODEL
M-IQM-4010:
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K-Thermocouple Module
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MEMORY SIZE:
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>8000 Data Points
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MEMORY
TYPE:
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Non-Volatile
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BATTERY TYPE:
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1-9 V Battery
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BATTERY
LIFE:
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@20°C: 30 Days recording every 30
Minutes
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INTERVAL BETWEEN READINGS:
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From
1 Min. to 24 hrs. in
Minute Increments
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RECORDING
TEMPERATURE RANGE:
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-20°C to 100°C
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OPERATING TEMPERATURE RANGE:
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0°-70°C
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DIMENSIONS:
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1.5 x 2.5 x 5 inches (38mm x
63 x 127mm)
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WEIGHT:
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10 oz (280 grams)
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MODEL
M-IQM-4011:
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3 Ft (1 m) K-Thermocouple (included
with every M-IQM-4010
System accuracy ±1°C)
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MODEL M-IQM-4040:
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Software to calculate
maturity &
strength
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OPERATING
SYSTEM:
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Windows 9x / ME
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PROCESSOR:
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166 MHz Pentium or
faster
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RAM:
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32 MB
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HARD DISK SPACE:
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8 MB
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