玄武岩纤维改良弱膨胀土的强度及裂隙特性OA
Strength and cracking behavior of weak expansive soil improved by basalt fiber
膨胀土引发的工程地质问题成为了制约城市地质安全的关键.为了研究玄武岩纤维改良膨胀土的效果和机理,以湖北宜昌三峡机场弱膨胀土为研究对象,通过掺入质量分数为 0.2%,0.4%和 0.6%的玄武岩纤维改良土的三轴压缩试验和干湿循环试验,并结合数字图像处理技术,研究改良土的强度和干湿循环下的表面裂隙随纤维掺量的变化规律.结果表明:玄武岩纤维掺量对改良土的黏聚力影响明显,对内摩擦角影响不显著,玄武岩纤维掺量为 0.4%时,改良土的黏聚力提高了 57.1%;不同玄武岩纤维掺量的改良系数均大于 1.0,掺量为 0.4%时改良效果最佳;首次干湿循环后,改良土和素膨胀土没有出现裂隙,后续循环期次玄武岩纤维改良土裂隙面积率和分形维数均比原土小,裂隙面积率的最大差值由 2.41%增至 4.54%,分形维数的最大差值由 0.058 降至 0.037,掺量为 0.4%时,玄武岩纤维抑制土的裂隙效果最好."嵌固"在土体中的纤维使裂隙尖端的应力集中程度降低,从而限制了裂隙的发展.研究结果可为区域性玄武岩纤维改良弱膨胀土的工程应用提供参考.
The engineering geological problems caused by expansive soil have become a key factor restricting urban geological safety.[Objective and Methods]In order to study the effect and mechanism of basalt fiber in improving expansive soil,weak expansive soil from Three Gorges Airport,Yichang,Hubei,was taken as the research object.By adding 0.2%,0.4%,and 0.6%basalt fiber to the soil,triaxial compression test and dry-wet cycle test were conducted,combined with digital image processing technology,to investigate the strength of the improved soil and the variation of surface cracks under the dry-wet cycle with fiber content.[Results]The results showed that the content of basalt fiber had a significant effect on the cohesion of the improved soil but had no significant effect on the internal friction angle.When the content of basalt fiber was 0.4%,the cohesion of the improved soil increased by 57.1%.The improvement coefficient for different basalt fiber contents was greater than 1.0,with the best improvement effect occurring at 0.4%.After the first dry-wet cycle,no cracks were observed in either the improved soil or the untreated expansive soil.The crack area ratio and fractal dimension of the basalt fiber-improved soil in subsequent cycles were smaller than those of the original soil.The maximum difference in the crack area ratio increased from 2.41%to 4.54%,and the maximum difference in the fractal dimension decreased from 0.058 to 0.037.When the content was 0.4%,the fiber had the best effect in inhibiting the cracking of the soil.The fiber embedded in the soil reduced the stress concentration at the crack tip,which limited the development of the crack.[Conclusion]The research results can provide valuable references for the engineering application of basalt fiber-improved weak expansive soil at the regional scale.
宋琨;刘跃;阮迪;黄维;袁晶晶;艾东
三峡大学防灾减灾湖北省重点实验室,湖北 宜昌 443002三峡大学防灾减灾湖北省重点实验室,湖北 宜昌 443002三峡大学防灾减灾湖北省重点实验室,湖北 宜昌 443002湖北省地质局第七地质大队,湖北 宜昌 443100湖北省地质局第七地质大队,湖北 宜昌 443100湖北省地质局第七地质大队,湖北 宜昌 443100
建筑与水利
弱膨胀土玄武岩纤维改良三轴压缩干湿循环裂隙抑制机理数字图像处理技术表面裂隙
weak expansive soilbasalt fiber improvementtriaxial compressiondry-wet cyclecrack inhibition mechanismdigital image processing technologysurface crack
《地质科技通报》 2026 (1)
110-120,11
国家自然科学基金项目(42077239)
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