市区内进行地质雷达勘探,探测剖面往往受到高压电线的严重干扰。
To do geology radar exploration in city area, the disturbing signal of high-voltage line is found on radar profile.
对排水(管)渠等非金属材质管线,应采用地质雷达探测的方法。
Nonmetal pipelines, including drainpipe and offtake, should be detected by geological radar.
根据地表下埋深10米断层的探地雷达和地震映像探测资料,讨论了超浅层地质构造的探测方法。
Based on the detection data of geological radar and seismic map for the underground faults at the 10 m depth, this paper discusses the detecting means for the super-shallow geological structures.
地质雷达探测技术在工程中得到广泛应用。
实践表明,采用钻孔雷达和BEAM电法探测技术对隧道掌子面前方的不良地质情况,尤其是含水情况具有较好的预测结果。
The practice demonstrates that the prediction to adverse geologic condition in front of the heading face by boring radar and BEAM electric method, especially to water-holding condition, is satisfied.
利用地质雷达探测能准确地提供管线的平面位置和埋设深度等情况,为施工管理提供可靠依据。
Applying geological radar can provide the plain position of pipeline and the buried depth, condition are summarized, affording the reliable basis for construction management.
地质雷达作为一种高分辨率和高准确率、并且快速高效的探测技术而得到迅速推广和应用。
The geology radar is a kind of rapid and high efficiency detecting technique with high resolving power and high accuracy, so as to obtain a quick popularization and applications.
地质雷达探测技术中资料处理相当关键,是雷达图像得以准确解释的前提和保证。
Data? Processing is a key link in GPR detection technique and constitutes the prerequisite and guarantee for the accurate interpretation of radar image.
结果表明,采用地质雷达探测巷道围岩松动圈是可行的,可以用于指导巷道围岩的锚杆支护设计。
The result shows that the ground penetrating radar can be used to detect the fractured rock zone in mine roadway and the result can be used to design anchor support in the roadway .
对河南神后宋代古瓷窑——钧窑采用地质雷达技术进行了尝试性的探测。
The georadar technique is experimentally used in detecting ancient Jun kiln of Song dynasty located in Shenhou town, Henan province.
其中重点是通过TSP- 203和地质雷达探测技术的探测和解译方法,提出提高探测精度的方法。
One focus will be on TSP-203 and geological radar technology to detect and interpret the methods proposed to increase the accuracy of the method of detection.
探地雷达在地质勘探、工程质量检测、考古、地下隐蔽物的探测等方面的应用愈来愈广。
There are more and more applications of road-penetrating radar to geologic exploration, engineering quality detection, archaeology and detection of underground hidden objects.
在简述地质雷达探测原理的基础上,分析了巷道围岩松动圈雷达探测的可行性。
Based on the detection principle of ground penetrating radar, this paper analyses the feasibility of detecting fractured rock zone in mine roadway with the radar.
探地雷达在工程探测中有着广泛的应用,例如:地质勘测、地下管道走向测定、文物的挖掘以及排雷等。
The object orientation technology is applied in broad fields, for example, landmine detection, and utility pipe location. In this article, we mainly do some research on GPR (Ground Penetrating Radar).
表明在岩溶地区的地上、地下施工中,利用地质雷达探测溶洞的有效性,且经济合理。
The technique shows successful and economically reasonable in prospecting for Karst caves at superterranean and subterrane construction.
本文以某水库坝体的勘察为例,介绍地质雷达探测技术在坝体隐蔽缺陷高分辨率探测中的实际应用。
Application of geologic radar detection to hidden defects is introduced herein by taking the investigation of certain dam of reservoir as an example.
管线探测的难点是在非金属管线,当采用地质雷达方法无法取得良好的成果时,可以采用高密度电阻率法这一高新技术。
The difficulty in pipe-detecting is the non-metallic pipe When the use of ground penetrating radar can not achieve good results, we can use another high-tech-high-density resistivity.
瞬变电磁方法由于受地表影响变化较大和地质雷达方法由于受探测深度的局限,不适合在鄂尔多斯盆地复杂的地表条件下采用。
Owing to the surface conditions and the depth of investigation, TEM and GPR are not practical for the case of complicated surface in Ordos basin.
地质雷达探测是利用不同界面的电性差异,反映岩性变化的特征。
Ground penetrating radar (GPR) surveys the electricity differences of different interfaces that reflect lithologic variations.
为解决探地雷达用于隧道地质超前预报时探测距离小的问题,在分析了雪崩三极管工作原理的基础上,设计了基于两级雪崩三极管串行级联的窄脉冲产生电路。
The status in quo of Impulse Ground Penetrating Radar and the general principle of Avalanche Transistor are discussed then a new method for Avalanche simulation is given in this thesis.
为解决探地雷达用于隧道地质超前预报时探测距离小的问题,在分析了雪崩三极管工作原理的基础上,设计了基于两级雪崩三极管串行级联的窄脉冲产生电路。
The status in quo of Impulse Ground Penetrating Radar and the general principle of Avalanche Transistor are discussed then a new method for Avalanche simulation is given in this thesis.
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