现场试验的准确性和数量在建筑工程岩土研究中的作用

D. Kutliyarov, A. Khafizov, Amar Kutliyarov, I. Ryzhkov, R. Zubairov
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引用次数: 0

摘要

本工作的目的是总结以往进行的关于优化不等岩土试验方案和根据试验结果选择所需计算指标的研究。建议在大范围内进行近似但快速和廉价的测试(“快速方法”),并将其视为评估整个场地岩土结构的一种手段。建议在较小的体积中进行昂贵的“精确”试验,并将其用作校正近似试验的手段。本文以静力探深(CPT)、原尺桩动、静力试验数据确定桩的承载力为例,对这些问题进行了探讨。基于信息论的概念,提出了测试复合体信息含量评价的数学模型。该场地在心理上被划分为几个部分,每个部分都以一定长度的桩的极限阻力的可能值之一为特征。考虑了可能的桩电阻值(“现场图像”)的所有“平面放置”变体。最初,当对每一段桩电阻的真实值一无所知时,假设所有可能的桩电阻值都是等概率的,即情况的不确定性最大。在信息论中,这种不确定性被称为熵的值所量化。当在现场进行任何测试时,不确定度会降低,测试越准确,这种降低就越显著。测试前后的熵差代表了这些测试所携带的信息量(以比特为单位)。利用该模型进行的计算表明,由于土壤的非均质性,大量近似试验的信息量可能超过少量精确试验的信息量。只有一种近似的测试方法会导致系统误差(过高估计或过低估计所需指标的平均值)。有必要进行控制“精确”试验和近似试验,以消除这种危险。提出了一种基于“准确”测试数据调整近似估计值的技术,以确保做出决策时的最佳“安全边际”。
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Role of accuracy and quantity of field tests in engineering-geotechnical researches for construction
The aim of this work is to summarize previously conducted studies on the optimization of the unequal geotechnical testing program and on the selection of the desired calculation indicator based on the results of such tests. The approximate, but quick and cheap tests (“express methods”) are recommended to be performed on a large scale and considered as a means of assessing the geotechnical structure of the site as a whole. It is proposed to carry out expensive “accurate” tests in a reduced volume and to use them as a means of correcting approximate tests. In the article, these issues are considered by the example of determining the bearing capacity of piles according to the data of static sounding (cone penetration testing – CPT), dynamic and static tests of full-scale piles. We propose the mathematical model for evaluating the informative content of the test complex, based on the concepts of information theory. The site is mentally divided into several sections, each of which is characterized by one of the possible values of the ultimate resistance of piles of a certain length. All variants of “placement in the plan” of possible values of pile resistances (“site images”) are considered. Initially, when nothing is known about the true value of the pile resistances in each section, all possible values of the pile resistances are assumed to be equally probable, i.e. the uncertainty of the situation is maximum. In the theory of information, such uncertainty is quantified by the value called entropy. When any test is performed at the site, the uncertainty decreases, and the more accurate the test the more significant is the decrease. The difference in entropy before and after the test represents the amount of information (in bits) that these tests carry. The calculations using this model showed that the information content of a large number of approximate tests can (due to heterogeneity of the soil) exceed the information content of small exact tests. Only one approximate test method can lead to the systematic error (overestimation or underestimation of the average value of the desired indicator). It is necessary to carry out control “exact” tests and approximate tests to eliminate such a danger. A technique is proposed for adjusting approximate estimates based on data from “accurate” tests, which ensures optimal “safety margins” in decisions being made.
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来源期刊
Scientific Review Engineering and Environmental Sciences
Scientific Review Engineering and Environmental Sciences Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
1.50
自引率
0.00%
发文量
24
审稿时长
26 weeks
期刊介绍: Scientific Review Engineering and Environmental Sciences [Przegląd Naukowy Inżynieria i Kształtowanie Środowiska] covers broad area of knowledge and practice on fields such as: sustainable development, landscaping of non-urbanized lands, environmental engineering, construction projects engineering land management, protection and land reclamation, environmental impact of investments, ecology, hydrology and water management, ground-water monitoring and restoration, geotechnical engineering, meteorology and connecting subjects. Authors are welcome to submit theoretical and practice-oriented papers containing detailed case studies within above mentioned disciplines. However, theoretical papers should contain part with practical application of the theory presented. Papers (in Polish or English languages) are accepted for publication after obtaining positive opinions of two reviewers. Papers published elsewhere are not accepted.
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