97 / 2021-03-30 13:55:02
Machine learning applied to rotary hammering sound test with the optimum hammering conditions
Concrete structure,Defect detection,Rotary hammering,Self-organizing map,Hammering condition
Final Paper
Hirotaka Tsuzuki / Mechanical design engineering;Graduate School of Engineering;University of Fukui
Fumiyasu KURATANI / faculty of engineering;mechanical engineering;University of Fukui
Tatsuya YOSHIDA / faculty of engineering;mechanical engineering;University of Fukui
Naoki MATSUI / Mechanical design engineering;Graduate School of Engineering;University of Fukui
A hammering sound test is widely used for inspection of internal defects in concrete structures. In this paper, we use a rotary hammer to improve the inspection efficiency and the hammering force variation. The rotary hammering device is comprised of a rotary hammering part and a spring for applying a pressing load to the part. The hammering sounds are measured with a microphone moving with the rotary hammering device. We propose a method using the self-organizing map (SOM) for automatically detecting the defective parts of concrete structures. We examine the hammering conditions (the pressing force and the spring constant of the rotary hammering device) when the difference between the hammering sounds at the defective parts and healthy parts is remarkable. The hammering sound test experiments of concrete specimens with artificial defects are conducted. Then, the SOM training is preformed where the frequency spectra of hammering sounds measured at the impact locations are used as input data. The results show that there are suitable conditions for the pressing force and the spring constant that maximize the ratio of the average value of the sound pressures at the defective parts to the average value at the healthy parts. The SOM results partition the impact locations into several groups. By removing the impact locations belonging to the group with the smallest average overall value, the impact locations corresponding to the defective parts are extracted. The extracted impact locations identify the exact locations and widths of the defects.
Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

Sponsored By
Qingdao University of Technology