A Clamped Bar Model for the Sompoton Vibrator

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Authors

  • Tee Hao WONG Energy, Sound and Vibration Research Group (e-VIBS) School of Science and Technology, University Malaysia Sabah
  • Jedol DAYOU Energy, Sound and Vibration Research Group (e-VIBS) School of Science and Technology, University Malaysia Sabah
  • M. NGU Energy, Sound and Vibration Research Group (e-VIBS) School of Science and Technology, University Malaysia Sabah
  • Jackson CHANG Energy, Sound and Vibration Research Group (e-VIBS) School of Science and Technology, University Malaysia Sabah
  • Willey LIEW School of Engineering and Information Technology, University Malaysia Sabah

Abstract

The sompoton is one of famous traditional musical instruments in Sabah. This instrument consists of several parts with the vibrator being the most important one. In this paper, the vibrator is modeled as a clamped bar with a uniformly distributed mass. By means of this model, the fundamental frequency is analyzed with the use of an equivalent single degree of freedom system (SDOF) and exact analysis. The vibrator is made of aluminum in different sizes and is excited using a constant air jet to obtain its fundamental resonance frequency. The fundamental frequency obtained from the experimental measure- ment is compared with the theoretical values calculated based on the equivalent SDOF and exact analysis theories. It is found that the exact analysis gives a closer value to the experimental results as compared to the SDOF system. Although both the experimental and theoretical results exhibit the same trend, they are different in magnitude. To overcome the differences in both theories, a correction factor is added to account for the production errors.

Keywords:

vibrator, clamped bar, single degree of freedom system, exact analysis, resonance frequency

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