Excess pore pressures around underground structures following earthquake induced liquefaction

IF 0.5 Q4 ENGINEERING, GEOLOGICAL International Journal of Geotechnical Earthquake Engineering Pub Date : 2012-07-01 DOI:10.4018/JGEE.2012070103
S. C. Chian, S. Madabhushi
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引用次数: 10

Abstract

Underground structures located in liquefiable soil deposits are susceptible to floatation following an earthquake event due to their lower unit weight relative to the surrounding saturated soil. This inherent buoyancy may cause lightweight structures to float when the soil liquefies. Centrifuge tests have been carried out to study the excess pore pressure generation and dissipation in liquefiable soils. In these tests, near full liquefaction conditions were attained within a few cycles of the earthquake loading. In the case of high hydraulic conductivity sands, significant dissipation could take place even during the earthquake loading which inhibits full liquefaction from occurring. In the case of excess pore pressure generation and dissipation around a floating structure, the cyclic response of the structure may lead to the reduction in excess pore pressure near the face of the structure as compared to the far field. This reduction in excess pore pressure is due to shear-induced dilation and suction pressures arising from extensile stresses at the soil-structure interface. Given the lower excess pore pressure around the structure; the soil around the structure retains a portion of this shear strength which in turn can discourage significant uplift of the underground structure.
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地震液化后地下结构周围的超孔隙压力
位于可液化土壤沉积物中的地下结构由于相对于周围饱和土壤的单位重量较低,在地震事件后容易发生浮力。当土壤液化时,这种固有的浮力可能会使轻质结构浮起来。采用离心试验研究了液化土中超孔隙压力的产生和消散。在这些试验中,在地震荷载的几个循环内达到了接近完全液化的条件。在高导水率砂的情况下,即使在地震荷载期间也会发生显著的耗散,从而抑制完全液化的发生。在浮式结构周围产生和耗散超孔隙压力的情况下,结构的循环响应可能导致结构表面附近的超孔隙压力比远场降低。这种超孔隙压力的降低是由于剪切引起的膨胀和土-结构界面上的拉伸应力引起的吸力压力。给定结构周围较低的超孔隙压力;结构周围的土壤保留了一部分抗剪强度,这反过来又可以阻止地下结构的显著隆起。
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来源期刊
CiteScore
1.90
自引率
25.00%
发文量
11
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