采用GA-BP神经网络对单桩嵌岩桩竖向承载力进行分析

Hongsheng Jiang, Quan'an Ma
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引用次数: 1

摘要

对于单桩嵌岩桩竖向极限承载力的设计,《建筑基础技术规范》(JGJ 94-2008)推荐的理论公式和静载试验是最常用的两种方法。但这两种方法得到的结果存在很大差异。通过对101桩嵌岩桩静载试验数据的分析,其相对差值平均值(注:取绝对值)甚至可达45.7%,且在大多数情况下前者大于后者。采用建立的GA-BP神经网络,以101个嵌岩桩静载试验数据为训练样本,有10个预测结果与静载试验期望值吻合较好。相对差的平均值约为5%。GA-BP神经网络也可用于嵌岩桩的竖向承载特性分析。利用上述GA-BP神经网络,改变嵌岩深度与桩径之比的大小,其余参数保持不变,可以得到该变比与预测竖向承载力输出的关系曲线,表明在给定施工场地和工艺条件下,可以找到一个与竖向极限承载力最大值相对应的最合理的比值值,但随着场地条件的变化,并没有找到一个恒定值。
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Using GA-BP neural networks to analyze vertical bearing capacity of single rock-socketed pile
With regard to the design of ultimate vertical bearing capacity of single rock-socketed pile, theoretical formula recommended by “Technical code for building foundations” (JGJ 94-2008)and static loading test are the two most popular methods. But results obtained from this two approaches have great differences. The average of relative difference (note: taking absolute value) is even up to 45.7%, and in most cases the values from the former are greater than that from the latter, as found from analyzing the static loading test data of 101 rock-socketed piles. By using founded GA-BP neural networks which taking 101 rock-socketed piles' static loading test data as a training sample, 10 predicted results have a good agreement with expected values from static loading tests. The average of relative difference is about 5%. GA-BP neural networks can also be used in analyzing the vertical bearing behaviors of rock-socketed pile. Using the GA-BP neural networks as mentioned above, varying the magnitude of ratio of rock-socketed depth to pile diameter, and keeping the rest of other parameters as unchanged constants, a curve of relationship between the variable ratio and output predicted vertical bearing capacity could be achieved, which revealed that for a given construction field and workmanship, a most reasonable value of the ratio could be found which corresponding to the maximum value of ultimate vertical bearing capacity, but no constant value has been found while changing the site condition.
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