基于宏元模拟的沙上浅基础沉降蠕变修正系数改进

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Bo Liu, Jianfeng Xue, Barry M. Lehane, Zhenyu Yin
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引用次数: 0

摘要

在许多沉降预测方法中,砂土上浅基础的蠕变沉降要么被忽略,要么使用时间校正因子进行计算,缺乏可靠的依据。现有的蠕变沉降修正系数主要来源于有限数量的长期沉降测量,没有考虑荷载水平、荷载施加速率和地基下土性质等因素的影响。本研究采用一种新提出的一维弹粘塑性宏观单元来研究影响砂基浅层地基时变特性的因素。基础的安全系数、土体的蠕变特性和荷载作用的持续时间对施工后沉降的发展有重要影响。利用模拟结果建立了考虑已识别因素的蠕变沉降修正系数。当地基安全系数为3时,改进后的沉降修正系数与现有的沉降修正系数相当。提出的沉降修正系数的有效性通过一个现场地基试验和两个案例的蠕变沉降测量来证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An improved creep correction factor for the settlement of shallow foundations on sand based on macro-element simulations
In many settlement prediction methods, the creep settlement of shallow foundations on sand has been either disregarded or accounted for using time correction factors that lack a reliable basis. These existing settlement correction factors for creep have mainly been derived from a restricted number of long-term settlement measurements, and do not consider the influence of factors such as the load level, rate of load application and properties of soil below the foundation. A newly proposed one-dimensional (1D) elasto-viscoplastic macro-element is employed in this study to investigate the factors influencing the time-dependent behaviour of shallow foundations on sand. The safety factor of the foundation, the creep characteristic of the soils and the duration of load application are found to have an important effect on the post-construction settlement development. The simulation results are used to develop an enhanced settlement correction factor for creep, which takes into account the identified factors. The improved settlement correction factor is shown to be comparable to existing ones when the safety factor of the foundation is 3. The effectiveness of the proposed settlement correction factor is demonstrated using creep settlement measurements from one field footing test and two case histories.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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