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魏世明, 柴 敬. 岩石变形光栅检测的表面粘贴法及应变传递分析[J]. 岩土工程学报, 2011, 33(4): 587.
引用本文: 魏世明, 柴 敬. 岩石变形光栅检测的表面粘贴法及应变传递分析[J]. 岩土工程学报, 2011, 33(4): 587.
WEI Shi-ming, CHAI Jing. Surface pasting methods and analyses of strain transfer in rock deformation tests using FBG[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(4): 587.
Citation: WEI Shi-ming, CHAI Jing. Surface pasting methods and analyses of strain transfer in rock deformation tests using FBG[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(4): 587.

岩石变形光栅检测的表面粘贴法及应变传递分析

Surface pasting methods and analyses of strain transfer in rock deformation tests using FBG

  • 摘要: 研究了岩石变形过程光纤光栅传感检测的关键技术及理论,提出了单轴压缩实验中的表面粘贴法。建立了表面粘贴法的应变传递模型,推导并求得了应变传递系数,以此为理论基础进行了MTS的对比实验,测试方向分别沿试件的轴向及环向。结果表明,经应变传递系数换算后,光纤光栅轴向应变与MTS测试结果相一致,相对误差率仅为2.8%;环向测试优于MTS的环向应变计,两种方法的测试结果均优于同位置粘贴的应变片。验证了应变传递模型的正确性,并表明光纤光栅表面粘贴法可以用于岩石的单轴压缩实验中,且与传统测试方法相比具有无可比拟的优越性。这对于提高岩石变形检测水平,实现工程实践中长期有效的在线监测具有重要意义。

     

    Abstract: The key technology and theory of rock deformation tests using fiber Bragg grating (FBG) sensing are studied, and the surface pasting method to be applied in uniaxial compression experiments is proposed. A strain transfer model of fiber sticking on surface is established, and the strain transfer coefficient is obtained by deducing. On such a theoretical basis, a comparative experiment in MTS is conducted, and the tests are along the axial and radial directions. The results indicate that the converted axial strain of FBG accords with that of MTS, and the relative error rate is only 2.8%. The effect of the ring strain tests is better than that of MTS radial strain gauge, and the two methods are all obviously better than the electrical strain gauges at the same position. This validates the proposed transfer model of surface pasting and also indicates that this method can be used in rock uniaxial compression experiments. Compared with the traditional tests, FBG has unexampled advantages. It has important meaning to increase the test level of rock deformation and to achieve long-term and on-line monitoring in rock engineering.

     

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