EQUIVALENCE OF TWO FORCES FROM DIFFERENT POSITIONS THAT PRODUCE THE SAME AMOUNT OF VIBRATION
Rotating machines are commonly used for industrial purpose. This type of machines always produces vibration during operation. The vibration produced is typically caused by a dynamic force from an unknown location. To pinpoint the location of the source, a basic understanding of force equivalence...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/49996 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Rotating machines are commonly used for industrial purpose. This type of machines
always produces vibration during operation. The vibration produced is typically caused by
a dynamic force from an unknown location. To pinpoint the location of the source, a basic
understanding of force equivalence is needed. The lack of knowledge about force
equivalence may lead to misleading vibration sources. Hence, this research aims to learn
about two force equivalence from different positions that produce the same vibration
amplitude at a vibration measurement point.
This research began by performing state-space simulation to choose the most
representative equivalent viscous damping models towards the actual system under studied.
The research continued by estimating dynamic parameter values (mass, spring stiffness,
viscous damping constant) of the test apparatus. Furthermore, these dynamic parameter
values are used in the force equivalence equation that has been derived to obtain the force
equivalence curve. Based on this curve, a state-space simulation is performed to prove that
the derived equation matches the simulation results.
The research continued by performing force equivalence test using an impact
hammer. On this test, force equivalence curve can be obtained by dividing two different
FRF (Frequency Response Function) curves. From the test being conducted, this division
produces a similar force equivalence graph with that obtained theoretically. |
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