首页|A photogrammetric approach for quantifying the evolution of rock joint void geometry under varying contact states
A photogrammetric approach for quantifying the evolution of rock joint void geometry under varying contact states
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Accurate measurement of the evolution of rock joint void geometry is essential for comprehending the distribution characteristics of asperities responsible for shear and seepage behaviors.However,existing techniques often require specialized equipment and skilled operators,posing practical challenges.In this study,a cost-effective photogrammetric approach is proposed.Particularly,local coordinate systems are established to facilitate the alignment and precise quantification of the relative position between two halves of a rock joint.Push/pull tests are conducted on rock joints with varying roughness levels to induce different contact states.A high-precision laser scanner serves as a benchmark for evaluating the pho-togrammetry method.Despite certain deviations exist,the measured evolution of void geometry is gen-erally consistent with the qualitative findings of previous studies.The photogrammetric measurements yield comparable accuracy to laser scanning,with maximum errors of 13.2%for aperture and 14.4%for void volume.Most joint matching coefficient(JMC)measurement errors are below 20%.Larger measure-ment errors occur primarily in highly mismatched rock joints with JMC values below 0.2,but even in cases where measurement errors exceed 80%,the maximum JMC error is only 0.0434.Thus,the proposed photogrammetric approach holds promise for widespread application in void geometry measurements in rock joints.
Rock jointVoid geometry evolutionPhotogrammetryApertureVoid volumeJoint matching coefficient
Rui Yong、Changshuo Wang、Nick Barton、Shigui Du
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Institute of Rock Mechanics,Ningbo University,Ningbo 315211,China
Nick Barton & Associates,Fjordveien 65c,Høvik 1363,Norway