Abstract
During the drilling process, the pressure measurement device of logging while drilling is affected by the severe vibration and impact load of the drill string, which is likely to cause fatigue damage to the weak parts. To study the anti-vibration performance of the small logging while drilling instrument, a finite element model of the drill string was established in this paper combined with finite element technology. Moreover, this paper analyzes the vibration frequency of the drill string and gives the method of using different drilling tools and drilling speeds at different depths to reduce the damage to the measuring device caused by the resonance of the drill string. Then, this paper analyzes the impact load to obtain the acceleration and displacement changes of the measuring device. In addition, this paper analyzes the anti-vibration performance of the instrument in the assembly of the outer steel pipe, including modal analysis, harmonic response analysis and random vibration analysis, and finds the weak link of the structure. Through experimental research, it can be known that the finite element method proposed in this paper has a certain effect in the analysis of the anti-vibration performance of the small instrument of Logging While Drilling.
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This research has been financed by “Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDA14020502) ”.
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Wei, Z., Jie, Y. & Gang, L. Analysis of anti-vibration performance of small logging while drilling instrument based on finite element analysis. Appl Nanosci 13, 1377–1387 (2023). https://doi.org/10.1007/s13204-021-02035-8
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DOI: https://doi.org/10.1007/s13204-021-02035-8