Grouped and single pile behavior differs owing to the impacts of the pile-to-pile interaction. Ultimate lateral resistance and lateral subgrade modulus within a pile group are known as the key parameters in the soil-pile interaction phenomenon. In this study, a series of experimental investigation was carried out on single and group pile subjected to monotonic lateral loadings. Experimental investigations were conducted on twelve model pile groups of configurations 1 × 2, 1 × 3, 2 × 2, 3 × 3, and 3 × 2 for embedded length-to-diameter ratio l/d = 32 into loose and dense sand, spacing from 3 to 6 pile diameter, in parallel and series arrangement. The tests were performed in dry sand from Johor Bahru, Malaysia. To reconstruct the sand samples, the new designed apparatus, Mobile Pluviator, was adopted. The ultimate lateral load is increased 53% in increasing of s/d from 3 to 6 owing to effects of sand relative density. An increasing of the number of piles in-group decreases the group efficiency owing to the increasing of overlapped stress zones and active wedges. A ratio of s/d more than 6d is large enough to eliminate the pile-to-pile interaction and the group effects. It may be more in the loose sand.
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机译:由于桩对桩相互作用的影响,分组桩和单桩行为有所不同。桩群内的极限侧向阻力和侧向路基模量是土桩相互作用现象的关键参数。在这项研究中,对承受单调侧向荷载的单桩和群桩进行了一系列实验研究。对12个模型桩组进行了实验研究,这些模型桩组分别为1×2、1×3、2×2、3×3和3×2,其中埋入的长径比l / d = 32进入松散而稠密的砂土,桩直径为3至6,平行和串联排列。测试是在马来西亚新山的干沙中进行的。为了重建砂样,采用了新设计的设备Mobile Pluviator。由于沙的相对密度的影响,最终的横向载荷在s / d从3增加到6时增加了53%。组内桩数的增加由于应力区域的重叠和活动楔的增加而降低了组效率。 s / d的比率大于6d足以消除桩与桩之间的相互作用以及群效应。可能更多是在松散的沙子中。
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