@article{ART001798316},
author={song jeong un and Kim,Seung-Gon and 박훈 and 홍웅기},
title={A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis},
journal={Journal of Environmental Impact Assessment},
issn={1225-7184},
year={2013},
volume={22},
number={4},
pages={381-387},
doi={10.14249/eia.2013.22.4.381}
TY - JOUR
AU - song jeong un
AU - Kim,Seung-Gon
AU - 박훈
AU - 홍웅기
TI - A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis
JO - Journal of Environmental Impact Assessment
PY - 2013
VL - 22
IS - 4
PB - Korean Society Of Environmental Impact Assessment
SP - 381
EP - 387
SN - 1225-7184
AB - In order to improve the environmental vibration, it is necessary to method for not only reduce the vibration source, but also control the vibration path. In this study, we used borebole for estimate the vibration reduction. And also, we analyzed displacement and vibration velocity caused by the position of borehole as well as the condition of borehole in ground structure. Visual FEA(Finite Element Analysis) program was used in this numerical analysis. The results are as follows : The displacement magnitude and X, Y direction displacement were represented to different results due to the condition and position of borehole, and were represented to the lowest values when the position of borehole is the most close condition from the vibration source. And also, the vibration velocity was decreased as using borebole in ground structure. The isolation efficiency of the vibration was calculated to maximum 18.40% when borehole was established to the most close position from the vibration source and the receive point.
KW - Borehole;finite element analysis;displacement;vibration velocity
DO - 10.14249/eia.2013.22.4.381
ER -
song jeong un, Kim,Seung-Gon, 박훈 and 홍웅기. (2013). A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis. Journal of Environmental Impact Assessment, 22(4), 381-387.
song jeong un, Kim,Seung-Gon, 박훈 and 홍웅기. 2013, "A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis", Journal of Environmental Impact Assessment, vol.22, no.4 pp.381-387. Available from: doi:10.14249/eia.2013.22.4.381
song jeong un, Kim,Seung-Gon, 박훈, 홍웅기 "A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis" Journal of Environmental Impact Assessment 22.4 pp.381-387 (2013) : 381.
song jeong un, Kim,Seung-Gon, 박훈, 홍웅기. A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis. 2013; 22(4), 381-387. Available from: doi:10.14249/eia.2013.22.4.381
song jeong un, Kim,Seung-Gon, 박훈 and 홍웅기. "A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis" Journal of Environmental Impact Assessment 22, no.4 (2013) : 381-387.doi: 10.14249/eia.2013.22.4.381
song jeong un; Kim,Seung-Gon; 박훈; 홍웅기. A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis. Journal of Environmental Impact Assessment, 22(4), 381-387. doi: 10.14249/eia.2013.22.4.381
song jeong un; Kim,Seung-Gon; 박훈; 홍웅기. A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis. Journal of Environmental Impact Assessment. 2013; 22(4) 381-387. doi: 10.14249/eia.2013.22.4.381
song jeong un, Kim,Seung-Gon, 박훈, 홍웅기. A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis. 2013; 22(4), 381-387. Available from: doi:10.14249/eia.2013.22.4.381
song jeong un, Kim,Seung-Gon, 박훈 and 홍웅기. "A Study on the Vibration Reduction by the Position of Borehole using Experimental Waveform and Finite Element Analysis" Journal of Environmental Impact Assessment 22, no.4 (2013) : 381-387.doi: 10.14249/eia.2013.22.4.381
