Experimental Evaluation and Vibration Response Simulation of Electric Motor Base Structure Through Direct Frequency Response Method Using MSC Patran 2005
In this study a finite element model of an electric motor supporting structure is developed using MSC Patran 2005. It is intended to evaluate the vibration response of the supporting structure using direct frequency response method available in this package software. A normal modes analysis is co...
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| Main Author: | |
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/41519 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In this study a finite element model of an electric motor supporting
structure is developed using MSC Patran 2005. It is intended to evaluate the
vibration response of the supporting structure using direct frequency response
method available in this package software. A normal modes analysis is conducted
to the developed finite element model and the results are validated by measuring
the structure Frequency Response Function. Based on valid finite element model,
vibration response of the finite element model due to harmonic excitation force is
evaluated using direct frequency response method. The results are compared to
the supporting structure vibration responses which are measured experimentally
using an electrodynamic exciter as an excitation force.
The finite element model then used to predict vibration response caused by
residual unbalance force on rotating electric motor mounted on the supporting
structure. The vibration responses obtained using FEM model are compared to the
experimental results. The comparison results show 1,79% minimum error
occurred for 20,5 Hz at measuring point number 2. The maximum error of 75,23%
occurred on point number 5 for 25,5 Hz which closes to one of its natural
frequencies. |
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