Applied Sciences (Sep 2022)

Establishing the True Dynamic Bending Moment of Propeller Shaft Using a Single Bridge of Strain Gauge

  • Quang Dao Vuong,
  • Ji-woong Lee,
  • Won-Ju Lee,
  • Hyejin Choi,
  • Kanghyun Seo,
  • Youngmin Kim,
  • Jin Hui Jeong,
  • Myeong-ho Song,
  • Jae-ung Lee

DOI
https://doi.org/10.3390/app12189235
Journal volume & issue
Vol. 12, no. 18
p. 9235

Abstract

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The measurement of shaft bending (whirling) moment can be performed via a telemetry system including strain gauges which can obtain the bending stress. By using a single bridge of strain gauge, it was possible to obtain only the nominal bending moment. However, in case of the propeller shaft vibration measurement, the true dynamic bending moment is needed to evaluate the effect of propeller forces on the stability of the bearings. To deal with this, typically two bridges of strain gauge at 90 degrees are needed. This research presents a novel reliability assessment method in establishing the true dynamic bending moment using only one bridge of strain gauge. This is achieved by using the actual bending stress measured by strain gauge combined with its own phase lag stress at an angle of 90 degrees. To validate this technique, the experiments were performed under the rapid turning transient states during a sea trial of a 50,000 DWT oil/chemical tanker. As a result, great fluctuations in propeller force were detected, resulting in a non-uniform oil film in the bearings. The displacement sensor was also installed and confirmed the established true dynamic bending moment.

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