Cyclic diurnal and annual temperature variations acting upon rocks belong to the permanent factors rarely considered as triggering factors of slope movements. The importance of temperature changes is viewed mainly as the precursor of failures where triggers are rainfall, seismic activity of other natural factors. This paper aims to determine the limit conditions where plastic deformation develops in situation where the block or several blocks fallen into open discontinuity create a “wedge-like” behaviour causing non-elastic displacement of block resting on an inclined plane. A physical model was prepared to study this phenomenon. The study was performed in thermal dilatometer where the displacements were measured using LVDT sensors for blocks with different block/wedge ratios, while the temperature cycled in a controlled manner. Together 9 physical models of sandstone blocks were tested within range of ?T?=?35?°C, which corresponds to annual temperature change and permanent displacements of the block was measured in order to confirm the existence of expected type of failure mechanism. Further series of cyclic tests at 9 models were performed in order to determine the threshold temperature change at which the plastic deformation for different block/wedge ratios occurs. The results confirmed the existence of plastic deformation resulting from cyclic wedging mechanism for block/wedge ratio 0.4 and total model size of 50?mm reached permanent displacement of 2.23?×?10-3 mm for a block resting on an inclined plane of 7°. For the same conditions the temperature change which causes permanent displacement of the block by wedging mechanism was found out to be as low as 6?°C. The results of physical model are in agreement with proposed analytical solution by Pasten (2013) and measurements of Bakun-Mazor et al., (2013) at Masada site in Israel. A thorough testing of the rock material in saturated conditions together with physical models was carried out, which confirmed the existence of the plastic deformations with amplitudes ten times larger compared to the dry conditions.
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机译:作用在岩石上的周期性昼夜温度和年度温度变化是永久性因素,很少被认为是斜坡运动的触发因素。温度变化的重要性主要被视为故障的先兆,其中的触发因素是降雨,其他自然因素的地震活动。本文旨在确定在一个或多个落入开放不连续性的砌块产生“楔状”行为从而导致砌块在倾斜平面上发生非弹性位移的情况下塑性变形发展的极限条件。准备了一个物理模型来研究这种现象。这项研究是在热膨胀计中进行的,其中使用LVDT传感器测量了具有不同块/楔比的块的位移,同时温度以受控方式循环。在与年温度变化相对应的ΔT2 = 35°C的范围内,一起测试了9个砂岩块的物理模型,并测量了该块的永久位移,以确认是否存在预期类型的破坏机制。为了确定阈值温度变化的阈值温度变化,针对不同的块/楔比,发生塑性变形,在9个模型上进行了进一步的系列循环测试。结果证实了块/楔比为0.4的循环楔入机制导致的塑性变形的存在,并且模型总尺寸为50?mm,对于放置在7°倾斜平面上的块,永久位移为2.23?×?10-3 mm 。在相同条件下,发现通过楔入机构引起块永久位移的温度变化低至6℃。物理模型的结果与Pasten(2013)提出的分析解决方案以及以色列Masada站点的Bakun-Mazor等人(2013)的测量结果一致。对岩石材料在饱和条件下进行了彻底的测试,并进行了物理模型测试,结果证实了塑性变形的存在是干燥条件下振幅的十倍。
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