反复应力变化对花岗岩弹性性能的影响

Youqing Chen, A. Yamazaki
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摘要

近年来,人们对岩体结构长期安全利用的要求进一步提高。有报道称,反复的应力变化引起了岩石的变质。然而,岩石在反复应力变化下的劣化仍有许多未知因素。为了进一步了解反复应力变化对花岗岩的破坏作用,详细分析了试验过程中试样弹性性能的变化。在室温条件下,对高20mm、直径10mm的圆柱形西风花岗岩试样进行了最大160mpa(约为估计单轴抗压强度的80%)和最小0.5 MPa的循环加载。在一个循环的100点同时测量轴向应变和侧向应变以及外加载荷,并根据这些测量数据估计杨氏模量和破坏前的泊松比。结果表明,随着劣化阶段的进展,两种弹性性能的特征变化。在初始退化阶段,变化非常小。在第二稳定阶段,两个性质逐渐线性变化。在最后的加速阶段,变化是剧烈的。还发现这些特征变化与报道的微裂纹扩展模式完全一致。
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Change in Elastic Property of Granite by Repeated Stress Change
The demand for the long-term safety utilization of rock structures has increased further in recent years. It has been reported that the repeated stress change induced the deterioration of rocks. However, there still remain many unknowns about the deterioration of rocks by repeated stress change. To obtain further insights into the deterioration of granite by repeated stress change, change in elastic property of specimen during the test was analyzed in detail. Cylindrical Westerly granite specimen with 20mm in height and 10mm in diameter was subjected to the cyclic loading with maximum 160 MPa (approximately 80% of the estimated uniaxial compressive strength) and minimum 0.5 MPa at room temperature. Axial and lateral strains, and the applied load were simultaneously measured at 100 points for one cycle, and Young's modulus and Poisson's ratio until failure were estimated applying these measured data. As a result, the characteristic changes in two elastic properties following the progress of the deterioration stage were revealed. At the initial degradation stage, the changes were very small. During the second steady stage, two properties were changed gradually and linearly. At the final accelerated stage, the changes were drastically. It was also found that these characteristic alterations were well accorded with the reported microcrack growth patterns.
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