Abstract
In order to study the propagation laws of blasting vibration waves in weak rock tunnels, the longitudinal and circumferential blasting vibration tests in Muzhailing Tunnel were carried out, and the measured data were analyzed and studied using the methods of Sadov’s nonlinear regression, Fourier transform, and Hilbert–Huang transform (HHT) to provide a reference for the optimization of blasting design of Muzhailing Tunnel or similar weak rock tunnels. The results showed that the tangential main frequency decreases rapidly and the radial main frequency decreases slowly with the increase of proportionate charge quantity. Under a certain charge quantity, as the distance from the explosion source increases, the spectrum width of the blasting vibration frequency becomes narrower, the overall energy is more concentrated, and the vibration frequency tends to be closer to the low frequency. At a certain distance from the explosive source, the frequency of blasting vibration decreases gradually, and the amplitude of low-frequency region increases with the increase of charge quantity. The vibration velocity on the left side of the tunnel is larger than that on the right side, and the vibration velocity at the vault and the arch foot of lower bench decreases rapidly, while the vibration velocity at the arch feet of upper bench and middle bench decreases slowly. The vibration frequencies of the left arch foot of the middle bench and the right arch foot of the upper bench are higher than those of other positions, while the frequencies of the left arch foot of the upper bench are the lowest. During tunnel blasting, the energy input to the strata media is mainly concentrated in the stage of the blasting of the cut hole. The blasting has more energy input to the left arch foot of the upper bench and the tunnel vault, which is consistent with the conclusion of frequency analysis.
Highlights
Lijun Chen,1 Jianxun Chen,1 Yanbin Luo,1 Yalong Guo,2 Yongjun Mu,1 Daochuan Zhong,1 Weiwei Liu,1 Tielun Yang,3 and Weixiang Chen3
In order to study the propagation laws of blasting vibration waves in weak rock tunnels, the longitudinal and circumferential blasting vibration tests in Muzhailing Tunnel were carried out, and the measured data were analyzed and studied using the methods of Sadov’s nonlinear regression, Fourier transform, and Hilbert–Huang transform (HHT) to provide a reference for the optimization of blasting design of Muzhailing Tunnel or similar weak rock tunnels. e results showed that the tangential main frequency decreases rapidly and the radial main frequency decreases slowly with the increase of proportionate charge quantity
Deng [30] conducted the UDEC–AUTODYN hybrid modeling of a large-scale underground explosion test, and the results showed that the UDEC–AUTODYN method is appropriate in modeling a large-scale explosive detonation in a closed space and the following wave propagation in jointed rock masses
Summary
Peng [28] analyzed the influence of blasting on surrounding rock and initial support structure of highway tunnel by field monitoring and numerical simulation, on the basis of studying the attenuation law of blasting vibration velocity. E above research on the blasting vibration of weak rock tunnels has been carried out from theoretical analysis, field measurement, and numerical simulation, and the research results mainly focus on theoretical formulas, calculation, and optimization of blasting construction parameters. The field blasting measurements in Muzhailing Tunnel were carried out, and the methods of Sadov’s nonlinear regression, Fourier transform, and HHT were used to analyze the propagation law of blasting vibration in weak rock mass
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