Damage Detection Using Measurement Response Data of Beam Structure Subject to a Moving Mass

Abstract: The moving load problem is divided into two typical types: moving force and moving mass. The moving mass problem includes the time-varying mass effect. This work considers damage detection of the beam structure subject to a moving load including the inertia effect based on the only measurement data from strain gages and accelerometers without any baseline data. This experiment compares the feasibility of damage detection methods depending on the measurement sensors of strain gages and accelerometers. The measu… Show more

“…Therefore, a procedure based on the Discrete Fourier Transform was explored to extract precise frequency and amplitude. Lee and Eun [50] performed a numerical and experimental analysis in a damaged beam subject to a moving mass and presented that the strain data, the acceleration, the mass magnitude, and the velocity can affect the damage detection's viability. Damage detection of structures is an exciting field of research, and the use of additional mass is promising.…”

Beam-like damage detection methodology using wavelet damage ratio and additional roving mass

“…Therefore, a procedure based on the Discrete Fourier Transform was explored to extract precise frequency and amplitude. Lee and Eun [50] performed a numerical and experimental analysis in a damaged beam subject to a moving mass and presented that the strain data, the acceleration, the mass magnitude, and the velocity can affect the damage detection's viability. Damage detection of structures is an exciting field of research, and the use of additional mass is promising.…”

Beam-like damage detection methodology using wavelet damage ratio and additional roving mass

Multi cracks detection in Euler-Bernoulli beam subjected to a moving mass based on acceleration responses