DEVELOPMENT OF DYNAMIC CALIBRATION TOOL FOR FORCE TRANSDUCER USING DROP BALL TESTER BASED ON OPTICAL INTERFEROMETERS
An increase in the need for dynamic force measurement in various research and industrial applications presents new challenges for researchers. At present there is no standard method that can be used to calibrate force transducers with dynamic forces in order to accurately measure dynamic forces....
Saved in:
| Main Author: | |
|---|---|
| Format: | Dissertations |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/46025 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | An increase in the need for dynamic force measurement in various research and
industrial applications presents new challenges for researchers. At present there is
no standard method that can be used to calibrate force transducers with dynamic
forces in order to accurately measure dynamic forces. Several studies have been
conducted to calibrate force transducers with dynamic forces such as using
sinusoidal forces produced by shaker and shock forces. However, this method has
not been able to evaluate the dynamic characteristics of the calibrated force
transducer so that the calibration results can only be used under certain conditions.
In this research, a tool and method has been developed to calibrate the force
transducer with dynamic force by evaluating the dynamic characteristics of the
force transducer. Calibration is done by working on the inertia force on the force
transducer to be calibrated by dropping the spherical body on the force transducer
to be calibrated. The total force acting on the spherical body during the collision
can be known accurately by measuring the acceleration of the spherical body using
an optical interferometer. The dynamic force acting on the force transducer is the
same as the impact force acting on the spherical body, so the measurement error
by the force transducer can be defined as, with is the force measured by the force
transducer. The total force acting on the spherical body is defined as
sphere impact F ? ?M ? g ? F where M is the mass of the spherical body and impact F is
the response force acting on the spherical body from calibrated force
transducer.The dynamic force acting on the force transducer is the same as the
impact force acting on the spherical body, so the measurement error by the force
transducer can be defined as diff trans impact F ? F ? F , with trans F is the force measured
by the force transducer. The dynamic characteristic of the force transducer
obtained in this experiment is that the measurement error is proportional to the
second order derivative of the forces measured by the force transducer with respect
to time, with 2
7 1.974 10
dt
dF
F trans
diff
? ? ? ? .This equation is then used to correct
dynamic measurement errors by the force transducer.
Calibration by the developed method proved to be very significant in correcting
dynamic force measurement errors by force transducers with very small root mean
square (RMS) errors compared to measurement results without dynamic
correction. The RMS error from the measurement result by force transducer with
dynamic calibration and correction using the developed method is about 1.6 N.
This error is equivalent to 1% of the maximum force exerted on the force transducer which is 160 N. |
|---|