循环冲击荷载下花岗岩力学特性尺寸效应

Size effect of mechanical properties of granite under cyclic impact loading

  • 摘要: 为探究岩石循环动力学特性及其尺寸效应,采用分离式霍普金森压杆对高径比为1.00,0.76和0.50的花岗岩试样开展循环冲击试验,并对比分析试验结果。结果表明:同一弹速下,高径比越小,试样最后一次冲击曲线的峰后破坏阶段越显著;随着高径比增加,试样峰值应变整体减小,而弹性模量有所增加,峰值应力下降程度明显减弱;在相同幅值的入射波循环作用下,累积比能量上升趋势随高径比增加逐渐变弱;低弹速(如8.5 m/s)循环冲击下试样呈现轴向劈裂破坏模式,而在高弹速(如9.9 m/s)条件下,试样破坏由轴向劈裂转变为边缘仅少量剥落。此外,试样破碎程度随高径比的增加而降低,表现为破碎块度增大、破碎块数减少。

     

    Abstract: In order to explore the size effect of cycling dynamic characteristics of rock, the cyclic impact tests for the granite specimens with height-diameter ratios of 1.00, 0.76 and 0.50 are carried out using the split Hopkinson pressure bar, and the testing results are compared and analyzed. The analysis results show that under the same striking velocity, the post-peak failure stage of the last stress-strain curve of the specimen is more significant under a smaller height-diameter ratio. With the increase of the height-diameter ratio, the peak strain of the specimen decreases as the whole, while the elastic moduli of the specimens increase and the decreasing degree of peak stress obviously becomes weak. Under the cyclic impact of the same incident wave, the upward trend of cumulative specific energy gradually decreases with the increase of the height-diameter ratio. Under the cyclic impact of low striking velocity (i.e., 8.5 m/s), the longitudinal cracks appear, which presents the failure mode of axial splitting, while at a high striking velocity (i.e., 9.9 m/s), the failure mode of the specimen changes from the axial splitting to a small number of flakes at the periphery. In addition, the fracture degree of the specimen decreases with the increasing height-diameter ratio, and the volume of fragments increases while the number of fragments decreases.

     

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