TY - JOUR A2 - Mucchi, Emiliano AU - Wu, Xu AU - Guo, Qifeng AU - Zhang, Yunpeng PY - 2018 DA - 2018/11/14 TI - A New Mathematical Model for Predicting the Surface Vibration Velocity on the Step Topography SP - 8356254 VL - 2018 AB - In order to control production blasting and optimize mining operation, it is important to study the step topography vibration amplification and attenuation effect in the open-pit mine. Surface particle vibration velocity attenuation characteristics, the formation, and change rules of the terrain effect were studied by analyzing the field measured data. Results show that local amplification effect and local attenuation amplification effect of particle vibration velocity are obvious. Amplification effect associates with bench height, and the attenuation effect is closely related with the distance from the vibration source and distance from the top. With the increase of elevation, vibration magnification of the particle on the top was 1.1∼1.4. Because of the influence of the terrain effect, particle vibration velocity on the slope toe was obviously inhibitory. Based on the measured data, elevation amplification factor and clamping effect factor which influence blasting vibration velocity are put forward, and a new mathematical model considering the attenuation coefficient, the elevation amplification coefficient, and the clamping effect coefficient for predicting the blasting vibration velocity of the step topography is further improved. The regression analysis results show that the fitting coefficient of determination of the new prediction model is 0.8152 in horizontal and 0.8902 in vertical, respectively, and the prediction error is less than 20%, which is much better than other formulas. This new model provides effective reference for blasting seismic wave propagation law research of slope engineering. SN - 1070-9622 UR - https://doi.org/10.1155/2018/8356254 DO - 10.1155/2018/8356254 JF - Shock and Vibration PB - Hindawi KW - ER -