文章摘要
王 博, 黄 睿, 黄雪峰, 邱明明, 王 寒.延安新区黄土结构性参数对无侧限抗压强度的影响规律Journal of Water Resources and Water Engineering[J].,2022,33(3):202-208
延安新区黄土结构性参数对无侧限抗压强度的影响规律
Influence of loess structural parameters on unconfined compressive strength in Yan’an New Area
  
DOI:10.11705/j.issn.1672-643X.2022.03.26
中文关键词: 结构性参数  无侧限抗压强度试验  初始结构性参数  非线性模型  延安新区黄土
英文关键词: structural parameter  unconfined compressive strength test  initial structural parameter  non-linear model  loess of Yan’an New Area
基金项目:
Author NameAffiliation
WANG Bo1, HUANG Rui2, HUANG Xuefeng1,3,4, QIU Mingming5, WANG Han1 (1. 兰州理工大学 土木工程学院 甘肃 兰州 730050 2.民航机场规划设计研究总院有限公司 北京 1001013.重庆交通大学 河海学院 重庆 400074 4.陆军勤务学院 军事设施工程系重庆 4013115.延安大学 建筑工程学院 陕西 延安 716000) 
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中文摘要:
      为研究高填方黄土的结构性在无侧限压缩状态下对其强度与变形特性的影响,以延安新区某高填方场地黄土为研究对象,开展不同试验条件下原状黄土与重塑黄土无侧限抗压强度试验,研究含水率与压实度对黄土结构性的变化规律及其力学特性的影响,并构建原状黄土和重塑黄土的初始结构参数与抗压强度关系的数学模型。结果表明:随着土样含水率的增大或压实度的减小,土体的应力-应变关系曲线由“陡峭”向“平缓”特征过渡,应力峰值减小且后移,结构性参数-应变关系曲线的峰值减小且前移;塑性指标可以作为影响初始结构性参数变化的临界值指标,含水率小于塑限值时,小应变会导致黄土结构性增强,反之则减弱;随着含水率的增大,初始结构性参数呈非线性减小,抗压强度呈线性减小;原状黄土结构性参数-应变关系曲线比相应的重塑黄土曲线分布“陡峭”, 含水率增大对原状黄土初始结构性的削弱程度明显大于重塑黄土;初始结构性参数与抗压强度具有非线性关系,可较为精确地表征出原状黄土和重塑黄土基于抗压强度、饱和黄土抗压强度及初始结构性参数的双曲线函数模型。
英文摘要:
      In order to study the influence of the structure of high fill loess on its strength and deformation characteristics under unconfined compression, taking the loess of a high fill site in Yan’an New Area as the research object, we carried out a series of unconfined compressive strength tests of undisturbed loess and remolded loess under different test conditions. We investigated the influence of water content and compactness on the change law and mechanical properties of the loess structure, and then established a mathematical model that can reflect the interplay between the initial structural parameters and compressive strength of undisturbed loess and remodeled loess. The findings show that with the increase of water content or the decrease of compactness, the stress-strain curve of the loess changes from “steep” to “stable”, the peak characteristic strength decreases and moves back towards the end of the curve; however, the peak point of structural parameter strain curve decreases and moves forward. The plasticity index can be used as a critical value indicator that affects the initial structural parameter change, when the water content is less than the value of plastic limit, a small strain can lead to structural enhancement and vice versa. With the increase of water content, the initial structural parameter decreases non-linearly but the compressive strength decreases linearly. The distribution of structural parameter strain curve of the undisturbed loess is more “steep” than that of the remolded loess, and the initial structural weakening capacity of the undisturbed loess is significantly greater than that of the remolded loess with increased humidity. There is a good non-linear relationship between initial structural parameters and compressive strength of the undisturbed loess and remolded loess, which can be characterized by a hyperbolic function model based on compressive strength, saturated loess compressive strength and initial structural parameters.
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