A Study of Blast Vibration Propagation Law under Negative Altitude Terrains

Gao, Jing; Huang, Chuanbing; Huang, Xiaomin; Ren, Jianjun; Wang, Na

doi:10.1155/2022/4289057

Cited by 4 publications

(3 citation statements)

References 15 publications

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“…The dominant frequency of blast vibrations plays a crucial role in vibration persistence and its amplification or reduction characteristics in structures [22][23][24]. Several methods and models have been developed to predict and optimize blast-induced ground vibrations [25][26][27][28]. Guo and Li proposed a hybrid intelligent model using a least-squares support vector machine (LSSVM) optimized with a particle swarm algorithm (PSO) for vibration prediction [10,29].…”

Section: Introductionmentioning

confidence: 99%

The Influence of Vibrations Induced by Blasting Works in an Open-Pit Mine and Seismic Events in an Underground Mine on Building Structures—A Case Study

Sołtys,

Pyra

2024

Applied Sciences

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Monitoring induced vibrations caused by blasting works is becoming an increasingly common form of preventive activity conducted in open-pit mines. Measurement stations also record other events unrelated to blasting works. This article presents a comparison of the intensity of vibrations induced by blasting works in an open-pit mine and mining tremors in an underground mine. The recorded data and conducted analyses of vibration intensity and frequency structure also allowed for a comparison of the impact of vibrations on a building structure. Calculations and analyses, conducted in accordance with the procedures provided in the standard PN-B-02170:2016-12 and the rules for applying the Mining Seismic Intensity Scale MSIS-2017, demonstrated a stronger impact on the building from induced vibrations in an underground mine located 10 km away compared to vibrations induced by blasting operations conducted in an open-pit mine, which is approximately 600 m away from the building. The presented material constitutes a unique set of data that can be used to introduce any necessary corrections in the methodology of analyzing vibrations regarding their harmfulness to building structures. The velocity value of vibrations correlated with frequency alone, without taking into account the vibration duration, can lead to incorrect interpretation.

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Section: Introductionmentioning

confidence: 99%

The Influence of Vibrations Induced by Blasting Works in an Open-Pit Mine and Seismic Events in an Underground Mine on Building Structures—A Case Study

Sołtys,

Pyra

2024

Applied Sciences

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“…Zhu et al [10] proposed a new method to predict the vibration velocity of multi-hole trenching blasting of laminated rock masses, which can be used for optimizing engineering blasting design and the blasting of the slope. In order to study the propagation law of blast vibration in soft rock tunnels, Chen et al [11] carried out an analysis and research on the measured data by blast vibration tests and used nonlinear regression and Fourier transform methods to provide a reference for the optimization of blast design in the Muzhailing tunnel or similar soft rock tunnels; Lin et al [12] proposed a superposition prediction method based on the propagation and superposition principles of blast vibration signals; Xiao et al [13] obtained the slope blasting vibration propagation law by fitting the Sadovsky formula based on field blasting vibration monitoring data; Gao et al [14] used regression analysis for the Sadovsky and the CRSRI blast vibration velocity prediction models during onsite operations; Zhang et al [15], through field blasting vibration monitoring and numerical simulation, proposed the propagation law of blasting vibration velocity in the high side wall, elucidated the local elevation amplification effect of blasting vibration velocity, and modified Sadovsky's formula; Tian et al [16] used MATLAB to compile a signal processing program to analyze the propagation law of blast vibration in the stratum of shallow buried tunnels with oversized cross-sections. In terms of the research of dynamic response.…”

Section: Introductionmentioning

confidence: 99%

“…E(V) = 2.864 − 0.0018x 1 − 0.701x 2 − 0.498x 3 (14) where E(V) is the dependent variable and represents the ln value of the peak vibration velocity; x 1 represents the effect of the maximum amount of material in a single section on the peak vibration velocity; x 2 represents the effect of the flat distance from the burst center on the peak vibration velocity; x 3 represents the effect of the vertical distance from the burst center on the peak vibration velocity.…”

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confidence: 99%

Research on Vibration Propagation Law and Dynamic Effect of Bench Blasting

Kong

Lei

2022

Mathematics

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To address the problem of damage to adjacent buildings (structures) caused by bench blasting construction, blasting in a sand and gravel mine in Guizhou Province was used as the background. Through on-site monitoring and numerical simulation, the blasting vibration propagation law and dynamic effect characteristics under the joint action of different bench heights and horizontal distances were studied. The regression model was established. The results show that: the peak vibration speed in all three directions with the increase in the horizontal distance of the burst center is a decaying trend, and the field measurements are basically consistent with the safe vibration speed and do not exceed 1.5 cm/s, so the house is in a safe state; shear stress with the increase in the horizontal distance of the burst center strictly decays, so the source of the shear stress and vibration speed decay faster in the near zone, with the slow decay in the far zone; analysis found that the shear stress and vibration speed are quadratic and exponential. Through the analysis of the regression model, it is obtained that there is no co-linearity among the influencing factors, which has a significant effect on the regression equation and regression coefficient, and so the multiple linear regression equation fits well. The model can predict the blast vibration intensity, which can be used as a safety criterion for buildings under the action of blasting, and provides a reference for blast vibration control, hole network parameters, and the design index.

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