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微生物结合纤维加筋黄土坡面抗侵蚀性能试验研究OA

Anti-erosion performance of microbial combined fiber reinforced loess slope

中文摘要英文摘要

降雨侵蚀严重威胁土质边坡稳定,甚至诱发失稳破坏.联合黄麻纤维与微生物诱导碳酸钙沉淀技术开展黄土坡面生态加固,模拟降雨测试分析坡面抗侵蚀性能提升程度及影响因素,利用扫描电子显微镜和能量色散X射线光谱仪从微观角度分析减缓黄土坡面降雨侵蚀作用的机制,探究减缓黄土坡面降雨侵蚀的可行手段.结果表明:添加黄麻纤维有助于提升微生物矿化黄土抗降雨侵蚀性能,尤以中高含量中长尺寸纤维的提升效果最佳;经生物矿化处理的纤维加筋黄土能显著抵抗弱降雨(6 mm/h)侵蚀,亦能短期抵抗强降雨(45 mm/h)侵蚀;强降雨条件下,抗侵蚀性能随纤维掺量的增加而提升,但提升幅度逐步降低,最大抗侵蚀性能提升为64.2%;生物胶结硬壳层厚度随纤维长度和含量的增加而变薄,C2L5和C8L25之间厚度差达2.86倍.纤维加筋微生物矿化黄土表层存在两种胶结模式:碳酸钙晶体沉淀于粒间孔隙形成的"粒间填充"模式和碳酸钙借助纤维联结包裹土颗粒形成的"裹覆胶结"模式.

Rainfall erosion seriously threatens the stability of soil slopes and even induces failure.In this study,jute fiber and the microbial-induced calcium carbonate precipitation technique were combined to carry out ecological reinforcement of loess slopes.A simulated rainfall test was used to analyze the improvement effect and influencing factors of slope erosion resistance.Scanning electron microscope and energy dispersive X-ray spectrometer were used to analyze the mechanism of mitigating rainfall erosion on loess slope from a micro perspective,and to explore the feasible means of mitigating rainfall erosion on loess slope.The results show that:the addition of jute fiber can help to improve the rainfall erosion resistance of microbial-mineralized loess,especially for the medium and high content of medium and long size fibers;the fiber-reinforced loess treated by biomineralization can significantly resist the erosion of weak rainfall(6 mm/h)and short-term heavy rainfall(45 mm/h);under heavy rainfall conditions,the erosion resistance increases with the increase of fiber content,but the increase range gradually decreases,and the highest erosion resistance increases to 64.2%;with the increase of fiber length and fiber content,the thickness difference between C2L5 and C8L25 is 2.86 times.There are two cementation modes in the surface layer of fiber-reinforced microbial mineralized loess:the"intergranular filling"mode formed by the precipitation of calcium carbonate crystals in intergranular pores,and the"wrapped cementation"mode of calcium carbonate formed by wrapping soil particles through fiber connection.

王保权;谢嘉恒;郭亮;刘丰威;王嘉

西南石油大学 地球科学与技术学院,成都 610500西南石油大学 地球科学与技术学院,成都 610500西南石油大学 地球科学与技术学院,成都 610500中铁四局集团投资运营有限公司,合肥 230041西南石油大学 地球科学与技术学院,成都 610500

建筑与水利

微生物诱导碳酸钙沉淀纤维加筋微生物矿化黄土边坡降雨侵蚀胶结模式

microbial induced calcium carbonate precipitationfiber reinforced microbial mineralizationloess sloperainfall erosionbonding mode

《土木与环境工程学报(中英文)》 2026 (2)

19-29,11

四川省自然科学基金(2022NSFSC0183)四川省矿产资源研究中心科研项目(SCKCZY2022-YB012)国家级大学生创新创业训练计划(202210615008、202210615033) Natural Science Foundation of Sichuan Province(No.2022NSFSC0183)Scientific Research Project of Sichuan Mineral Resources Research Center(No.SCKCZY2022-YB012)National Innovation and Entrepreneurship Training Program for College Students(Nos.202210615008,202210615033)

10.11835/j.issn.2096-6717.2024.012

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