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The comprehensive database of load tests on closed-ended piles in sand has been re-examined to study the relationship between CPT resistance, q c , and ultimate base capacity, q b . The aim is to establish the origin of low reported values of q b /q c which contrast with continuum models that suggest q b = q c for steady deep penetration. Partial embedment of the pile tip into a hard layer underlying weak material has been accounted for by weighting q c . Partial mobilisation has been accounted for by defining failure according to a plunging criterion. When these two mechanisms are considered, the resulting values of q b /q c have a mean value of 0·90 and show no trend with pile diameter. The remaining slight underprediction of the ‘continuum’ model (q b = q c ) could be attributed to the underestimation of plunging load in pile tests for which steady penetration is not reached. This exercise makes two contributions: first, it is suggested that any reduction of q c when estimating the end bearing capacity of closed-ended piles in sand should be linked to partial embedment and partial mobilisation, rather than absolute diameter; second, the dearth of high-quality pile load test data in the public domain is highlighted.
White et al. (Sat,) studied this question.
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