岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
10期
3033-3038
,共6页
边坡%深部大变形监测%智能石头%磁测
邊坡%深部大變形鑑測%智能石頭%磁測
변파%심부대변형감측%지능석두%자측
slope%internal large deformation monitoring%smart rock%magnetic survey
现有边坡深部变形监测仪器易受雨水、泥石流、滚石等环境的影响,仪器布设较繁琐,且无法监测边坡深部滑移的中后期变形。基于磁场定位理论,采用磁性物质制作智能石头,在边坡深部布置智能石头,通过智能石头和全张量磁力梯度仪建立边坡深部大变形监测系统。基于磁场梯度张量缩并定位对智能石头进行三维定位,实现边坡深部的中后期大变形监测。针对全张量磁力梯度仪的精度和地球磁场梯度的影响,由三维磁感应强度和磁场梯度的分析,其有效监测距离为35 m;在磁场定位试验中,监测精度为0.06 m。可为磁测在边坡深部大变形监测的进一步研究和应用提供参考。
現有邊坡深部變形鑑測儀器易受雨水、泥石流、滾石等環境的影響,儀器佈設較繁瑣,且無法鑑測邊坡深部滑移的中後期變形。基于磁場定位理論,採用磁性物質製作智能石頭,在邊坡深部佈置智能石頭,通過智能石頭和全張量磁力梯度儀建立邊坡深部大變形鑑測繫統。基于磁場梯度張量縮併定位對智能石頭進行三維定位,實現邊坡深部的中後期大變形鑑測。針對全張量磁力梯度儀的精度和地毬磁場梯度的影響,由三維磁感應彊度和磁場梯度的分析,其有效鑑測距離為35 m;在磁場定位試驗中,鑑測精度為0.06 m。可為磁測在邊坡深部大變形鑑測的進一步研究和應用提供參攷。
현유변파심부변형감측의기역수우수、니석류、곤석등배경적영향,의기포설교번쇄,차무법감측변파심부활이적중후기변형。기우자장정위이론,채용자성물질제작지능석두,재변파심부포치지능석두,통과지능석두화전장량자력제도의건립변파심부대변형감측계통。기우자장제도장량축병정위대지능석두진행삼유정위,실현변파심부적중후기대변형감측。침대전장량자력제도의적정도화지구자장제도적영향,유삼유자감응강도화자장제도적분석,기유효감측거리위35 m;재자장정위시험중,감측정도위0.06 m。가위자측재변파심부대변형감측적진일보연구화응용제공삼고。
The existing slope internal deformation sensors are easily influenced by rainwater, mud-rock flows, rolling stones and other environmental factors. The arrangement of equipments is not convenient for the internal deformation monitoring; and the internal deformation monitoring can not be realized by the present technology during middle and late periods of sliding. Based on the magnetic localization theory, the smart rock is fabricated with magnetic label;and smart rock is embedded in the deep part of slope. So the slope internal large deformation monitoring system is established with the combination of smart rock and full tensor magnetic gradiometer. The localization by magnetic gradient tensor contraction is used to track the three dimensional motion of smart rock in order to realize the slope internal large deformation monitoring. With regard to the precision of full tensor magnetic gradiometer and influence of earth magnetic gradient, the effective monitoring distance can reach 35 meters by the analysis of magnetic strength and magnetic gradient. In the experiment, the deformation monitoring accuracy is 0.06 meter, which can be used as reference in the further study and practical engineering monitoring.