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| The application of comprehensive geophysical prospecting method to the investigation of Xiangjiang bridge in Zhuzhou |
LI Tan-Wei( ), LI Zhen-Xing, GE Yan-Ming, WU Yuan-Ming |
| Hunan Provincial Communications Planning,Survey & Design Institute Co.,Ltd.,Changsha 410219,China |
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Abstract The geological conditions in the karst-developed area are complicated.The geological conditions directly affect the bridge design plan.On the basis of comprehensive research on the topographic and geomorphological characteristics and geological conditions of the bridge area of the Xiangjiang River Bridge in Zhuzhou and with the purpose of ascertaining the type and scale of karst development in the bridge site area and the location of each bridge pier,the authors used such means as high-density electrical method,magnetotelluric survey,shallow water earthquake and CT between holes in the survey.Verification results in the anomalous area show that the detection results are accurate and reliable,indicating that the integrated geophysical method is accurate and effective for bridge site survey.The bridge span layout scheme and pile foundation laying height were adjusted to make the layout span and pile length more reasonable,thus successfully avoiding karst,realizing the geological priority and forming the bridge design scheme for site selection.
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Received: 16 March 2020
Published: 27 July 2021
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Sketch map of regional geological structure in the work area
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| 介质 | 电阻率/(Ω·m) | 纵波波速/(km·s-1) | | 水 | <100 | 0.9~2.2 | | 粗砂 | 10~103 | 0.5~2 | | 卵石 | 3×102~6×103 | 1.4~2.5 | | 砾岩 | 10~104 | 1.6~4.2 | | 灰岩 | 102~104 | 3.4~6.1 | | 岩溶水 | <300 | 1.4~2.6 |
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Range of physical property parameters of main underground media in survey area
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Schematic diagram of measuring area and measuring line layout
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Plan view of elastic wave CT detection
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Anomalous interpretation of the D1-D1' section of the magnetotelluric method
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Shallow seismic method profile Q1-Q1' anomaly interpretation
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High-density electrical method profile G1-G1' anomaly
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CT imaging of inter-hole seismic waves and geological interpretation
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Plan view of inferred comprehensive geophysical prospecting
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