Microscopic Pore Characteristics of Fine Clay Particals in Eluvial Gravel Soil

DONG Hui; LI Zhi-fei

doi:10.13961/j.cnki.stbctb.2014.04.048

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Microscopic Pore Characteristics of Fine Clay Particals in Eluvial Gravel Soil

- Microscopic Pore Characteristics of Fine Clay Particals in Eluvial Gravel Soil
- Bulletin of Soiland Water Conservation Vol. 33, Issue 4, Pages: 173-177(2014)
- 作者机构：
  
  1. 湘潭大学土木工程与力学学院,湖南,湘潭,411105
  2. 湘潭大学流变力学研究所,湖南,湘潭,411105
- 作者简介：
- 基金信息：
- DOI：10.13961/j.cnki.stbctb.2014.04.048
  CLC：
- Published：2014
- 稿件说明：
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DONG Hui, LI Zhi-fei. Microscopic Pore Characteristics of Fine Clay Particals in Eluvial Gravel Soil[J]. Bulletin of Soiland Water Conservation, 2014, 33(4): 173-177.
DOI：

DONG Hui, LI Zhi-fei. Microscopic Pore Characteristics of Fine Clay Particals in Eluvial Gravel Soil[J]. Bulletin of Soiland Water Conservation, 2014, 33(4): 173-177. DOI： 10.13961/j.cnki.stbctb.2014.04.048.

摘要

孔隙特征(多孔性、变异性、复杂性)对雨水入渗的具有重要影响。应用图像处理技术对具有级配代表性的湖南省湘潭市昭山区某堆积碎石土斜坡中细小黏粒的细观孔隙特征进行了试验研究。研究结果表明

相同质量的细小黏粒土体的孔隙度与含水率存在二次曲线关系

试验土体在含水率为10.41%时压实性最好;孔隙数目、孔隙复杂度以及孔隙变异度随着含水率的增加而减小

表明含水率越小孔隙的扭曲程度越高

孔隙就越复杂

且孔隙数含量越多

越有利于表层雨水下渗;不同含水率下孔隙定向角在10°~20°

50°~60°

100°~110°

140°~150°这4个方位上分布相对密集

且含水率越小

孔隙定向性相对较明显;孔隙定向角分布具有辐射状

含水率为15%时最为明显

有利于水分的水平渗透迁移。

Abstract

Due to the influence of pore characteristics(porosity

variability and complexity) on rain infiltration

the microscopic pore characteristics of fine clay in eluvial gravel soil with representative grade of a slope in Zhaoshan Zone in Xiangtan City of Hu'nan Province were studied through image processing technology. The results show that there is a quadratic curve relationship between porosity and moisture content in fine clay particals under the same quality

and the experiment soil has the best compaction when the moisture content is 10.41%; the pore number

the pore tested and the pore variability decreases with the increase of the moisture content variation degree

its indicate that the smaller of the pore moisture content

the higher level of distortion and the more complex of pore

and the more pore number

the more beneficial to infiltration for surface water; the pore orientation angle under different moisture content are concentrated in 10°~20°

50°~60°

100°~110°

and 140°~150°

and the less moisture content

the more obvious pore directionality is; the distribution of the pore's angle shows a radial structure

and the description is most evident when the moisture content is 15%

and is advantageous to the level osmosis migration of moisture.

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references

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